62 files changed, 7514 insertions, 0 deletions
diff --git a/.gitattributes b/.gitattributes
new file mode 100644
index 0000000..6833f05
--- /dev/null
+++ b/.gitattributes
@@ -0,0 +1,3 @@
+* text=auto
+*.txt text
+*.md text
diff --git a/38428-8.txt b/38428-8.txt
new file mode 100644
index 0000000..e6121f7
--- /dev/null
+++ b/38428-8.txt
@@ -0,0 +1,2452 @@
+The Project Gutenberg EBook of Through a Microscope, by 
+Samuel Wells and Mary Treat and Frederick Leroy Sargent
+
+This eBook is for the use of anyone anywhere at no cost and with
+almost no restrictions whatsoever.  You may copy it, give it away or
+re-use it under the terms of the Project Gutenberg License included
+with this eBook or online at www.gutenberg.org
+
+
+Title: Through a Microscope
+       Something of the Science Together with many Curious
+       Observations Indoor and Out and Directions for a Home-made
+       Microscope.
+
+Author: Samuel Wells
+        Mary Treat
+        Frederick Leroy Sargent
+
+Release Date: December 28, 2011 [EBook #38428]
+
+Language: English
+
+Character set encoding: ISO-8859-1
+
+*** START OF THIS PROJECT GUTENBERG EBOOK THROUGH A MICROSCOPE ***
+
+
+
+
+Produced by Chris Curnow, David E. Brown and the Online
+Distributed Proofreading Team at https://www.pgdp.net (This
+file was produced from images generously made available
+by The Internet Archive)
+
+
+
+
+
+
+
+
+
+  THROUGH A MICROSCOPE
+
+  SOMETHING OF THE SCIENCE
+  TOGETHER WITH MANY CURIOUS OBSERVATIONS
+  INDOOR AND OUT
+  AND DIRECTIONS FOR A HOME-MADE MICROSCOPE
+
+
+  BY
+  SAMUEL WELLS, MARY TREAT AND
+  FREDERICK LEROY SARGENT
+
+
+
+  CHICAGO
+  THE INTERSTATE PUBLISHING COMPANY
+  BOSTON: 30 FRANKLIN STREET
+
+
+  COPYRIGHT, 1886,
+  BY
+  INTERSTATE PUBLISHING COMPANY.
+
+
+
+
+CONTENTS.
+
+
+CHAPTER.                        PAGE.
+
+I. Through a Microscope             7
+
+II. The Outfit                     14
+
+III. The Objects                   20
+
+IV. Home Experiments               26
+
+V. Cochituate Water                33
+
+VI. Interesting objects            39
+
+VII. The Brickmaker                46
+
+VIII. The Vorticellas              54
+
+IX. The Utricularia                61
+
+X. Free Swimming Animalcules       70
+
+XI. On the Beach                   78
+
+XII. Rizopods                      86
+
+XIII. How to See a Dandelion       97
+
+XIV. How to See a Bumble Bee      107
+
+XV. Some Little Things to See     114
+
+
+
+
+PART I
+
+THROUGH A MICROSCOPE
+
+BY SAMUEL WELLS
+
+
+
+
+THROUGH A MICROSCOPE
+
+
+I
+
+An object one hundredth of an inch in diameter, or of which it would
+take one hundred placed side by side to make an inch, is about the
+smallest thing that can be easily seen by the unassisted eye. Take a
+piece of card and punch a little hole through it with the point of a
+small needle, hold it towards a lamp or a window, and you will see the
+light through it.
+
+  [Illustration: FIG. 1.]
+
+This hole will be about the size just mentioned, and you will find that
+you can see it best and most distinctly when you hold it at a certain
+distance from your eye; and this distance will not be far from ten
+inches, unless you are near-sighted. Now bring it towards your eye and
+you will find it becomes blurred and indistinct. You will see by this
+experiment that you cannot see things distinctly when held too close to
+your eye, or in other words, that you cannot bring your eye nearer to an
+object than eight or ten inches and see it well at the same time.
+
+You could see things much smaller than one hundredth of an inch if you
+could get your eye close enough to them. How can that be done? By a
+microscope? yes, but what is that? This name comes from two Greek words
+that mean "to see small things;" and a microscope is an instrument by
+which your eye can get very close to what you want to see.
+
+To understand this, take out one of your eyes and look at it with the
+other one. You see that it is a little round camera; most boys have seen
+a camera and some boys can make one. The simplest way to do that is to
+take a box, say a cigar box (empty, of course); pull off the cover and
+fasten in the place of it a piece of ground glass if you have one: if
+not a piece of white letter paper, oiled, will do; bore a hole in the
+middle of the bottom with a small gimlet and your camera is done. Point
+the bottom with the hole in it out of the window, and throw a piece of
+cloth over your head and over the box, as the photographers do, to shut
+out the side light, but mind and not cover up the hole; look at the
+ground glass (or oiled paper) and you will see things upside down. (Fig.
+1.) But what has it to do with my eye? you say. Why, your eye is just
+like it, only round, as in fig. 2. And if you hold a doll or anything
+else about ten inches in front of the eye you have taken out and look at
+the inside of it (the eye, not the doll) just as you look at the ground
+glass of your box camera, you will see the doll upside down on the back
+of the eye.
+
+But how, do you say, can I see things right side up when they are upside
+down in my eye? This is a very good conundrum and it will keep a long
+time, till you are about seventy years old and have spare time to sit
+down and think about it.
+
+Now you see how your eye is a camera; the pupil is the hole and the
+back of the eye, called the retina, is the ground glass.
+
+But you will find that the camera you have just made does not show
+things distinctly and beautifully as the photographer's camera does; how
+can they be distinct in the eye then?
+
+Because in the photographer's camera, in the hole is a lens, which is a
+piece of glass, shaped like a sun glass; and so in your eye just behind
+the pupil is a lens, not made of glass, but still almost as transparent
+as if it were. In order to see what effect this lens has, take your box
+camera, make the hole larger and put a lens in it; one of your magic
+lantern lenses will do; and if the lens has the right focus you will see
+the images sharp and distinct on your ground glass. The focus probably
+will not be just right, so make a paper tube, into which fasten your
+lens and slide the tube in and out of the hole until you find the right
+focus.
+
+When you have got that right so that you see a boy on the sidewalk
+upside down and see his teeth when he laughs, put some small object, the
+little doll will do, about three feet in front of your lens, and you
+will find the image of it is blurred and indistinct, and that you must
+pull your tube out to get the focus on the doll; or if you had another
+lens of just the right shape to hold in front of your camera, you would
+with that get the focus on the doll.
+
+  [Illustration: FIG. 2.]
+
+Thus you can see how it is with your eye, and why you cannot see things
+distinctly held close to it. The lens in the eye can change its shape a
+little, so that it will focus objects a mile off, or ten inches off, but
+it cannot be pushed in and out like the tube in your camera. You can do
+this, however, if you take another lens and hold it outside your eye and
+let the light go through that first before it comes to the lens in your
+eye, and in this way you can get a focus in your retina, and the outside
+lens thus forms a part of that optical instrument called your eye. Does
+your grandma know that her spectacles are a part of the cameras that she
+calls her eyes?
+
+How is it that a lens bends (refracts is the big word for it) the rays
+of light? You will learn by and by. You can see that it does so by a few
+experiments with your sun glass or any such lens. Hold it between the
+sun and a piece of white paper until the white spot in the centre is as
+small as you can make it. You will see that the rest of the lens casts a
+shadow although it is all glass; this is because the rays of sunlight
+that fall on the lens are all bent towards the centre, and so you have a
+small white spot on which is concentrated the light and the heat, and
+before you have found out how it is all done, your paper takes fire and
+the experiment ends in smoke.
+
+Take another piece of paper, and when the white spot is at its smallest,
+measure the distance between the lens and the paper, and you will have
+the focal distance of the lens.
+
+You have now found out how to get your eye close to an object and see
+something that is very small; this is usually called magnifying it,
+because it seems to make it look large. Suppose you have a lens that
+will let you see a flea through it held just one inch from it, this lens
+is now an addition to your eye, as we measure from the lens. If you had
+another flea held ten inches off, so big that it would just be hidden by
+the little flea, the one farthest off would be ten times as large as the
+near one. (Fig. 3.) In this case it is said that the lens having a focal
+length of one inch magnifies ten times, or has a power of ten.
+
+  [Illustration: FIG. 3.]
+
+The shortest usual distance of objects seen distinctly being taken as
+ten inches, microscopists have agreed to consider that as the standard
+of measurement, and objects seen through a lens are considered magnified
+to the size they would have if projected ten inches off, like our little
+flea.
+
+
+II.--THE OUTFIT.
+
+Now that we have got hold of the idea that the eye is an optical
+instrument, and that to increase its capacity for seeing small things we
+add to it other optical contrivances, making with it one instrument
+composed of several parts, let us look at such additions more
+particularly.
+
+  [Illustration: FIG. 1.]
+
+  [Illustration: FIG. 2.]
+
+  [Illustration: FIG. 3.--OPEN AND CLOSED.]
+
+One pleasant September afternoon, three gentlemen were strolling along
+the banks of the Wissahickon, in Philadelphia's beautiful park, and
+stopping now and then to examine some little flower or insect with
+pocket lenses, when they discovered that some little boys out for a
+holiday were watching their proceedings with a curious and mystified
+interest. One of the gentlemen had a pocket microscope with three lenses
+of different sizes, as in Fig. 1. Calling the boys up to him he showed
+them a little flower magnified. They had never dreamed of such a sight,
+and their wonder and amazement were as great as if they suddenly beheld
+a new world. You will be as surprised as they were when you take your
+first peep, but you must learn to see such things _by yourselves_. The
+first thing you need is a simple microscope, that is, one with a single
+lens, small enough to be carried in the pocket. There are different
+forms and sizes of such microscopes, varying in quality and price. Those
+like the one just mentioned are made with from one to four lenses each,
+and are perhaps the most generally useful. Then there is the Coddington
+lens (Fig. 2) which is still more compact; and it is sometimes made in
+the form of Fig. 3. It has a very short focus, and is not, therefore,
+very easy to use. Achromatic doublets and triplets are made of two or
+more lenses cemented together and mounted in the same style as the
+Coddington lens; they are very much better than the Coddington, but are
+more expensive.
+
+  [Illustration: FIG. 4.]
+
+  [Illustration: FIG. 5.]
+
+There are several devices for mounting these simple microscopes on
+stands so that they can be kept steady and the objects to be examined
+placed behind them. One of these is illustrated in Fig. 4. An ingenious
+boy with a block of wood for a base, some stout wire and corks, can make
+one almost as useful, though not so handsome.
+
+  [Illustration: FIG. 6.]
+
+A more elaborate form is shown in Fig. 5. It has a glass stage to hold
+transparent objects, and a brass one for opaque objects, and a mirror
+below to reflect light up through transparent objects.
+
+It is much better to use a good simple microscope than a poor and cheap
+compound one; be sure and remember this and not be enticed to buy such
+an one by any representations as to its great magnifying power.
+
+A compound microscope is one with a tube from four to ten inches long,
+an arrangement for holding the object to be looked at, and a mirror
+below to reflect light upon or through it. The lenses at the end next
+the object are small, and are set in a small brass tube, which is called
+an "objective." It screws into the large tube. The lenses at the end of
+the large tube next the eye are set in a tube, called the eye-piece,
+which slides in and out of the large tube. Different objectives contain
+lenses of different sizes according to the magnifying power desired, and
+they are named "two inch," "one inch," "half inch," and so on down to
+"one seventy-fifth." Eye-pieces are sometimes named "A," "B," "C," but
+more properly "two inch," and so on down to "one eighth." There is a
+very great variety in the forms of compound microscopes, from the very
+simple up to the very elaborate, and the prices vary accordingly. A
+simple but useful form is given in Fig. 6.
+
+A great deal of money can be expended on a microscope and the various
+instruments made to use with it and which are called "accessory
+apparatus"; but it is best not to buy these instruments until you know
+just what you want, and not to spend much money at first except under
+the advice of a "microscopist."
+
+Some simple things, however, you will need at once, such as a few slips
+of glass three inches long and one inch wide, called "glass slides,"
+some pieces of very thin glass, called "cover glass," a pair of
+tweezers, some needles fastened into pen-holders for handles, and a few
+glass tubes commonly called "pipettes," or "dipping tubes." These can be
+readily bought, and some of them easily made.
+
+  [Illustration: CATCHING ANIMALCULA WITH A PIPETTE.]
+
+
+III.--OBJECTS.
+
+As soon as you have a microscope you will begin to look at everything
+and anything: dust, crumbs of bread, flour, starch, mosquitoes, flies,
+and moth millers in their season; flowers and leaves, cotton, wool, and
+silk. But this scattering kind of observation will soon weary you. In
+order to get the greatest pleasure and best results from your work, you
+must proceed with some system.
+
+  [Illustration: BULL'S EYE LENS.]
+
+There are so many objects visible only through the microscope that life
+is not long enough for you to see them all, much less to study them.
+Some microscopists devote the time they have for such studies to the
+observation of single classes of objects; the physician observes the
+various parts of the animal structure, and calls his work "histology;"
+the botanist examines the vegetable kingdom; the entomologist, insects;
+but in all these departments there are numerous subdivisions. As a guide
+to your work, you will find some book on the microscope very useful; the
+best one is _The Microscope and its Revelations_, by Dr. William B.
+Carpenter.
+
+  [Illustration: MAGNIFIED 50 DIAMETERS.]
+
+  [Illustration: FLY'S EYE--5 DIAMETERS.]
+
+Objects through which you can see light are called "transparent," and
+are the easiest to look at with the microscope, because you can lay them
+on a glass slide and throw light up through them with your mirror. Thick
+objects through which light cannot pass are called "opaque," and are
+more difficult to examine, and can only be seen with low powers and a
+bright light.
+
+In order to see such objects in the evening, you will need a "bull's
+eye" lens mounted on a stand, which you can place beside your microscope
+and between the lamp and the stage, condensing the light of the lamp on
+the object. (_Fig. 1._) There are other methods of illuminating opaque
+objects, but they are expensive and difficult to manage, yet by and by
+if you persevere in this delightful occupation you will learn what they
+are.
+
+  [Illustration: Scale of Butterfly
+  MAGNIFIED 200 DIAMETERS.]
+
+  [Illustration: HEAD OF MOSQUITO. MAGNIFIED 15 DIAMETERS.]
+
+Some persons will expect you to show them a fly as big as a horse; but
+you will soon be able to prove to them that you know more about the
+matter than they do. With a large hand-lens, you can see a whole fly at
+once and magnify it two or three times; but when you put it on the stage
+of your compound microscope and try to magnify it still more, you will
+find that you can only see a part of it at a time, and the higher the
+power you use, the less can you see; in other words, the more you
+magnify an object, the smaller is the field of view.
+
+An inch-objective will show the head of an housefly, which in a bright
+light is a very beautiful object. No picture can equal the delicacy of
+the color of the eyes of a live fly.
+
+  [Illustration: SECTION OF WOOD.
+  MAGNIFIED 50 DIAMETERS.]
+
+After a little practise you will be able to separate the different parts
+of insects and look at them with higher powers. The moth fly will soon
+be on the wing, and your aunt will not call you cruel if you kill and
+cut up large numbers of them. Put a little of the dust that comes off
+from the wing of a moth on a glass slide, look at it with a high power,
+and you will find that each particle of dust is a pretty leaf-like
+scale. You have seen in summer the dust on the wings of butterflies;
+remember this, and look at this butterfly dust with your microscope.
+
+Flowers and leaves you can always easily obtain; but in looking at them
+you must remember what has already been said about "transparent" and
+"opaque" objects.
+
+Thin slices or sections of stems, leaves, and portions of flowers, can
+be made with a sharp knife, and examined as transparent objects, so that
+thus you can observe the internal or cellular structure of the vegetable
+kingdom.
+
+
+IV.--HOME EXPERIMENTS.
+
+  [Illustration: FIG. 1.]
+
+During the cold weather it is not pleasant to make excursions into the
+country and search for objects for the microscope; so you will look
+about and see what you can find at home; and if you live in Boston,
+Cochituate water will invite your inspection. The best way to get at the
+minute objects in this or any water that is supplied through pipes, is
+to make a bag of cotton cloth, not too fine, well washed in water
+without soap, about a foot long, large enough at the top to slip over a
+faucet that has a screw on it (like the common kitchen faucet adapted
+for a filter), so that it can be tied with a string, and small enough at
+the bottom to be tied on to the neck of a small bottle such as is used
+for homoeopathic pills. This bag should taper gradually in size from
+the top to the bottom. (_Fig. 1._)
+
+  [Illustration: The Water Flea
+  FIG. 2. CYCLOPS QUADRICORNIS. MAGNIFIED 20 DIAMETERS.]
+
+  [Illustration: FIG. 3. CANTHOCAMPTUS MINUTUS. 40 DIAMETERS.]
+
+If there is a strong head of water where your faucet is, you must reduce
+the pressure by opening other faucets on the same floor, such as those
+in the laundry, otherwise many of the small creatures will be crushed in
+the interstices of the bag. Now let the water run. The bag will swell
+out and the water ooze through its sides, and all objects too small to
+pass through it will fall down and settle in the little bottle at the
+bottom. When you see that there is a considerable amount of sediment in
+the bottle, shut off the water and gently squeeze the bag between your
+thumb and forefinger, beginning at the top and moving your hand down
+towards the bottle. This movement will cause much of the sediment that
+has adhered to the sides of the bag to fall down. Now untie your bottle
+and set it aside and let the water run through the bag to clean it. If
+you have a filter attached to your kitchen faucet you can get a very
+good idea of the solid contents of the water by unscrewing it, or
+turning it over if it is made so as to reverse, and letting the sediment
+that has collected on it drip into a tumbler, but the bag gives much
+better results, as many of the delicate forms that live in the water are
+crushed to death on the filter.
+
+  [Illustration: FIG. 4. CHYDORUS SPHOERICUS. 50 DIAMETERS.]
+
+Having got the sediment in either a tumbler or a bottle, you must make
+your first observation on it with the naked eye by holding it up to the
+light and looking through it. You will find it of a brown color, because
+a large part of it consists of particles of earth and decayed vegetable
+matter, but you will presently see many little white specks moving about
+with a jumping or hopping movement. These are commonly called
+"water-fleas," on account of their peculiar movements, but the name is
+misleading, as they belong to the crustacea (animals having a shell or
+crust like the lobster), and not to the insects.
+
+They are found abundantly in ponds and ditches, and in salt water.
+Sometimes they are so abundant in drinking water that has not been
+filtered, as to alarm a timid person, but you will find them just as
+good to eat raw as they are cooked. The most common of these little
+creatures is the _Cyclops Quadricornis_, so called because he has one
+eye and four horns. (_Fig. 2._)
+
+This picture represents a female, and she carries her eggs in the two
+little black bags that you see fastened on each side of the abdomen. You
+will find it very interesting by and by to watch the eggs hatch and see
+the little cyclops hop away. When young they do not look much like their
+parents; they are rounder and their legs are more prominent. The female
+cyclops (the male is comparatively rare) is the most common creature in
+Cochituate water, and as it is constantly eating, it helps to purify the
+water, and, in its turn, is eaten by the fishes.
+
+In swimming it contracts its four horns and its fringed feet with a
+quick movement that throws it forward through the water with a leap.
+
+Its one eye is of a brilliant red, and is a beautiful object under the
+microscope. The shell also is sometimes beautifully colored, and is
+often transparent, so that the internal organs are plainly visible
+through it.
+
+  [Illustration: FIG. 5.]
+
+Another of the family of _Cyclopid�_ is the _Canthocamptus minutus_
+(_fig. 3_), which you see is longer and more tapering in its form than
+the _Cyclops Quadricornis_. It is also very common and very active.
+
+_Chydorus Sphoericus_ (_fig. 4_) is a very pretty round form
+interesting to study when transparent.
+
+All these and some others with rather hard names are in that division of
+the _Crustacea_ called _Entomostraca_, meaning shelled creatures whose
+shells are cut and do not cover them all round. On this principle, an
+oyster on the half-shell might be called an _Entomostracan_.
+
+Now to catch these lively fellows, you must take a dipping tube and be
+patient, and when you have got one in the tube, carefully drop it on the
+bottom of the "live-box" (_fig. 5_), and put on the cover. Examine it
+first with the lowest power you have. By careful management of the cover
+you can catch it between the top and bottom without breaking the shell,
+and in this prison you can study it at leisure.
+
+
+V.--COCHITUATE WATER.
+
+You have read or been told that if you look at a drop of water through a
+microscope you will find it full of animalcul�, and showmen will
+sometimes exhibit water containing _entomostraca_ hopping about, and
+will try to persuade you that all water looks in the same way.
+
+  [Illustration: ROTIFER VULGARIS.]
+
+But this is a common mistake, as you will soon find out for yourselves.
+Water such as is commonly used for drinking purposes, whether it comes
+from a well, spring, river, or pond, contains but little animal or
+vegetable life in proportion to its quantity; you may place drop after
+drop under the microscope without finding anything visible, and you can
+only tell what is in it by filtering a great deal of it. Water standing
+in ditches or pools for a long time, becomes full of growth of various
+kinds, and is then so discolored and slimy that no one would think of
+drinking it.
+
+  [Illustration: CARAPACE OF ANUR� STIPITATA.]
+
+Let us return to the little bottle which you filled with Cochituate
+filterings last month. Take a little from the bottom with your
+dipping-tube; put it in the live box and examine it with a half-inch
+objective. You will see many forms that are strange to you, and we will
+suppose that the first is that of one of the rotifers. These little
+creatures are called by this name because of two Latin words meaning
+wheel-carriers, for on their heads they have an arrangement which looks
+like a wheel, sometimes in rapid motion.
+
+  [Illustration: FLOSCULARIA ORNATA.]
+
+The most common kind is called _Rotifer vulgaris_ (_fig. 1_), and is a
+very interesting and elastic being. Sometimes he is gloomy and draws
+himself in so that he looks like a ball; then he will stretch out full
+length, and opening his wheel, shoot through the water with great speed.
+Again he will attach his tail to some fixed object, and by the aid of
+his wheel draw a rapid current of water through his mouth; it is thus
+that you can best observe him, and by and by you will discover that the
+apparent wheel is only a result of the rapid sweeping movement of the
+long hairs or cilia which fringe the opening in the top of the head.
+Through this opening the water passes, the rotifer gathers his food from
+the current, and the food passes into the mastax, where it is ground by
+the masticating apparatus, which is easily seen in motion.
+
+  [Illustration: DINOBRYON TORTULARIA.]
+
+There are several different rotifers found in Cochituate water; among
+them the most common is the _Anur� Stipitata_. (_Fig. 2._) It is like a
+turtle, with a shell, or carapace, beautifully ornamented. You will see
+plenty of these empty shells, and sometimes you will find one inhabited,
+when you will see that the creature has a bright red eye, and several
+bundles of cilia, in front of the projecting spires.
+
+One of the families of the rotifers is called _Floscularia_, because it
+resembles a flower; it is attached at the base to small plants, or alg�,
+and occupies a sheath so transparent that it is hardly visible. One
+species is occasionally found in the Cochituate, the _Floscularia
+ornata_. (_Fig. 3._) It is a beautiful object, with its elongated
+radiating cilia, which remain quiet, and do not vibrate. The specimen
+figured has three eggs attached to its stem.
+
+You will find other rotifers in the Cochituate, some formed like vases,
+others with long spires, but all graceful and beautiful. The _Dinobryon
+Tortularia_ is sometimes very common in this water.
+
+In October, 1881, when the taste of the water was very bad, the
+_Dinobryon_ was very abundant, though we do not know that it had
+anything to do with the bad taste. You will see by the figure, that it
+is like a tree, with an individual of the family at the end of every
+branch. Each one has its own organs of existence, although attached to
+its brothers by its stem. Each has a bright red eye, and a long slender
+whip, called a _flagellum_, with which it lashes the water, and when all
+the _flagell�_ are in motion, the whole tree swims about. The
+individuals are very small indeed, and it will take your best objective
+to show the _flagellum_.
+
+  [Illustration: VORTICELLA NEBULIFERA.]
+
+Another tree-like group is that of the _Vorticella_, of which you will
+sometimes find in the Cochituate, the species _Vorticella nebulifera_.
+Each animal is at the top of a stem, and this stem has the peculiar
+property of being able to coil up and draw its head down close to the
+bottom. This appears to be a defensive movement, for whenever a big ugly
+creature comes by, down go the whole family so quickly that your eye
+cannot follow the movement. Sometimes they will all bob down when you
+tap the stage of the microscope so as to jar them. At a certain period
+of its life the animal suddenly leaves its stem, and goes swimming about
+with great speed.
+
+
+VI.--INTERESTING OBJECTS.
+
+  [Illustration: STEPHANODISCUS NIAGAR�.]
+
+The most beautiful of the small _alg�_ or water plants are the
+_Diatomace�_ and the _Desmidiace�_, sometimes called for brevity diatoms
+and desmids. They are remarkable for the geometrical character of their
+forms, consisting of circles, triangles and polygons of infinite
+variety. They are very small, and cannot be satisfactorily seen with an
+objective of less power than a four tenths. The diatoms are found
+everywhere in both fresh and salt water, but the desmids live only in
+fresh water. One of the most common diatoms in Cochituate water is the
+_Stephanodiscus Niagar�_. (_Fig. 1._) It is in shape like a pill box,
+and its sides, which would be called its top and bottom if it were a
+pill box, are beautifully ornamented with dots in radiating lines with a
+ring of spines near the edge. This circle of spines or thorns explains
+its name, _Stephanodiscus_, from the proto-martyr, Saint Stephen. The
+name _Niagar�_ is from Niagara River, where it was found. Like all
+diatoms, it contains when alive a yellowish brown matter with small
+globules of oil, which is called _endochrome_. The box or shell, called
+_pustule_, is of silex or quartz, and is therefore almost
+indestructible; and when the diatom dies, sinks to the bottom of the
+water. In this way beds of shells of diatoms are sometimes formed of
+considerable thickness.
+
+  [Illustration: ASTERIONELLA BLEAKLEYII.]
+
+  [Illustration: TABELLARIA FENESTRATA.]
+
+Under the city of Richmond, Va., there is such a deposit, varying from
+ten to twenty feet in depth, and extending for many miles. Some of the
+diatoms, especially those shaped like a boat, called _Navicula_, have a
+peculiar motion which at one time led observers to think them animals.
+No one knows how this motion is produced, and if you can find this
+out, you will make a very important discovery. The most common diatom in
+Cochituate water is _Asterionella Bleakleyii_. It resembles a star with
+rays, or the hub and spokes of a wheel. (_Fig. 2._) This diatom is often
+found in abundance in the water supplies of cities. It never forms a
+complete circle, but grows into spirals or whorls which easily break up.
+
+  [Illustration: SPONGILLA FLUVIATILIS.]
+
+  [Illustration: DESMIDIUM SWARTZII. FRONT AND SIDE VIEW.]
+
+Another diatom common in Cochituate is _Tabellaria Fenestrata_, which
+grows in ribbon-like forms. (_Fig. 3._) The desmids resemble the diatoms
+in the geometrical character of their forms, but they have no shell of
+silex, and are therefore easily destroyed. They are readily
+distinguished at sight by the beautiful green color of the contained
+matter. In many of them there is a curious circulation of small
+particles, especially in the ends of those of a crescent or new-moon
+shape. This circulation can only be seen with a high power. Desmids are
+easily found in ponds and ditches; and there are several species in
+Cochituate. Among them is _Desmidium Swartzii_ (_fig. 4_), and
+_Closterium moniliferum_. (_Fig. 5._) Their beauty depends so much on
+color that they do not appear to advantage in the figures. You will find
+in examining the filterings of Cochituate water, many objects which have
+not been described in these papers, and among them many fragments of
+green filaments of the small plants belonging to the _conferv�_ and the
+_oscillatori�_; sometimes you will find small round opaque forms of
+brown or green color, which are probably spores of plants of a larger
+growth; sometimes you will see the pollen of pine-trees which has fallen
+into the water and looks like three small balls fastened together;
+sometimes, though rarely, you may find one of those curious little
+creatures called water bears, or _tardigrada_; and you may be fortunate
+enough to catch a water spider.
+
+  [Illustration: CLOSTERIUM MONILIFERUM.]
+
+But you will often see the _spicul�_ of the sponge, called _Spongilla
+fluviatilis_. They look like pins of glass, blunt at one end and
+pointed at the other, and are sometimes very abundant. You may have
+heard that this sponge has been considered the source of the
+occasionally bad taste and smell of Cochituate water. When it is alive,
+it is not disagreeable, but when it decays it imparts to the water a
+very unpleasant taste and odor. It certainly is one cause of the bad
+quality of the water, but whether it is entitled to the sole credit is
+still open to question.
+
+You can see what it looks like in _fig. 6_. When alive, it is of a
+light-green color, but when decayed it becomes brown. It is full of the
+_spicul�_ above described, which serve to stiffen it, but it easily
+crumbles and scatters them through the water.
+
+Though the microscope shows us many beautiful and interesting objects,
+yet in the present state of our knowledge we cannot ascertain by its use
+whether the water we examine is harmless or injurious.
+
+
+VII.--THE BRICKMAKER.
+
+The microscope reveals so many strange odd-looking water creatures and
+plants that we can easily imagine ourselves transported to some new
+world. Look at this field of view as seen through the microscope. In the
+centre stands a brickmaker. He is a queer little animal, and so small
+that he looks like a mere speck to the naked eye, but through the
+microscope we see how wonderfully curious and strange a creature he is.
+He is no idle, lazy fellow. He is instead a most busy mechanic.
+
+Just now he is building a house out of tiny bricks, and he manufactures
+the bricks himself, making them one at a time, and when one is finished
+he lays it down carefully by the side of the last, and fastens it firmly
+in its place with a kind of cement. The bricks are laid in regular tiers
+one above the other.
+
+We find these brickmakers in still water where various water-plants
+grow, especially the water-milfoil and bladderwort. They seem to be
+social beings. They live in large communities, attaching their houses to
+the stems and leaves of the plants so thickly sometimes that they almost
+touch one another. They look, to the naked eye, like lines about one
+eighth of an inch in length. Sometimes they are very thick on the plants
+in New Jersey ponds.
+
+If you take some of the plants and water, and put them in a bottle, you
+can carry a large number of the brickmakers home, where you can watch
+them at your leisure. Take a glass slide which has a little cup-shaped
+hollow to hold a few drops of water, and put a tiny piece of the plant
+with the house attached into this hollow and fill it with some of the
+water from the bottle. Now cover it with a very thin piece of glass and
+lay it over the stage of the microscope, and it is ready to be looked at
+and studied. You will look with both eyes, for your microscope is a
+binocular--one that has two tubes to look through. The size of the
+objects will depend upon the magnifying power you have chosen.
+
+The first thing you see is a dark, brick-colored, cylinder-shaped house
+which looks to be about the size of a cigar. The little builder who
+lives in this house has been disturbed by the means we have taken to
+make his acquaintance; he has stopped work and gone within. But he is so
+industrious a fellow that he will not remain within very long. As soon
+as it is quite still he will probably come to the door of his house, and
+you will see him thrust out two horns. He will move these horns to the
+right and left, cautiously feeling all around him. He seems very
+cautious indeed. But at last he is satisfied that no enemy is near. Now
+he ventures out. He unfolds his wheels.
+
+These wheels are surrounded with a band of _cilia_, or flexible hairs,
+which he can put in rapid motion, making the wheels have the appearance
+of revolving very fast. This rapid motion of the cilia forms a swift
+current in the water; and this current brings tiny particles of various
+things to the little mechanic. Some of these particles he uses for food;
+of others, he makes brick. They are carried into an opening between the
+wheels where you can see them revolving very fast until they are
+gathered into a little round, dark-colored pellet. The particles are
+probably held together by a sticky secretion made by the builder.
+
+It takes him about three minutes to make a brick. As soon as it is
+finished, he bends his head over, takes it from its mould between the
+wheels, and lays it down carefully by the side of the last. Then he
+raises his head and begins to make another. The tube thus constructed is
+quite firm and strong. Sometimes when I have found a long tube, I have
+cut off a portion from the top. This can be done, with care, for the
+brickmaker drops to the bottom when disturbed. It is very amusing to
+watch him repair damages and rebuild. Sometimes I have forced one out of
+his tube, but it always soon died. But though industrious, he is so
+cautious, or timid, that he is easily frightened, and therefore he is
+often interrupted in his work. For instance, like some people that we
+know, he is very afraid of snakes. If a harmless little tiny snake comes
+wriggling along through the water anywhere near him, he folds his wheels
+and drops down into his house as quick as a flash. One day a little boy
+was delighted with the fast-revolving wheels. Suddenly, by and by, he
+turned toward me with great disgust plainly showing in his face: "He's
+gone in, 'fraid of a little snake!" he exclaimed.
+
+  [Illustration: FIGURE 1, BRICKMAKER; 2, CURRENT IN WATER; 3, 4, 5, 6,
+  DIATOMS; 7, 8, DESMIDS; 9, ALG�; 10, 11, TRICHODA LYNCEUS; 12,
+  SNAKE-LIKE LARVA; 13, PART OF PLANT TO WHICH BRICKMAKER IS ATTACHED;
+  14, BATRACHOSPERMUM MONILIFORM.]
+
+He is always a great favorite with those who have watched him through
+the microscope. I do not know how long they live, but I have kept the
+same individuals three months or more. I think no one knows the entire
+life-history of any of these little creatures, so here is a grand chance
+for any young microscopist to investigate and become famous.
+
+On the left of the brickmaker in our field of view is a delicate,
+beautiful plant. Only a small part of it is seen in the engraving. It
+has a long, floating stem, thickly set with rosettes of a pearly green
+color. To the naked eye it looks like green slime, and is called "frog's
+spawn;" but the microscope shows us that it is a lovely plant, and some
+wise man has given us a long fine name to call it by if we
+choose--_Batrachospermum moniliform_. Let us see if this long name has
+any meaning: _Batrachia_, a frog, _spermum_, spawn; ah, after all, only
+another name for frog spawn! The other name, _moniliform_, means a
+bead-like necklace; and this was given it because the threads that make
+the rosettes look like strings of small pearly-green beads.
+
+All of the strange-looking plants and animals that we see in the
+microscope are known as well by sight and by name by those who make them
+a study, as are the larger animals and plants that we see around us
+every day.
+
+A bright little girl once asked me why such long hard names are given to
+everything in nature. We told her if there was but one language spoken
+in the world there would be no need of using Latin names. But as there
+are many languages, it was found necessary to agree upon some system, so
+that all peoples of different nations might have the same name for an
+animal or plant, and a long time ago all the civilized world agreed to
+use Latin names. Thus our little brickmaker is known all over the world
+as _Melicerta ringens_.
+
+"A field of view" depends for its interest and variety upon what kind of
+water we put under the microscope. In the one here represented, I first
+took a tiny spray of plant with a brickmaker's house attached, and laid
+it on the hollow glass slide and then used the dipping-tube and brought
+up some of the sediment from the bottom of the bottle; this proved to
+contain several singular-looking plants and animals shown here.
+
+_Figures_ 3, 4, 5 and 6, are diatoms, and _figures_ 7 and 8 are
+desmids. Naturalists formerly placed both diatoms and desmids in the
+animal kingdom, but now all agree that the desmids are plants, while
+some few still maintain that the diatoms are animals. But the weight of
+evidence is on the plant side of the question.
+
+The desmids are wonderfully beautiful plants; the markings and colors
+are exquisite. A number of species are found in the sediment of every
+swamp and pond.
+
+The diatoms often grow in long ribbon-like masses (_fig. 3_), and then
+partially separate, remaining joined together at the angles so as to
+form a zigzag chain as seen at _figure 4_. They have the power of moving
+through the water, changing their places like animals.
+
+A great variety of forms are found, both diatoms and desmids, many still
+undescribed, inviting the young microscopist to study and name them.
+
+_Figures_ 10 and 11 are different forms of a little animal, _Trichoda
+lynceus_. It undergoes a great many changes. In some of its stages, it
+looks so different from the figures here represented that you would
+never dream of its being the same creature.
+
+
+VIII.--THE VORTICELLAS.
+
+  [Illustration: CARCHESIUM POLYPINUM.]
+
+The tree-vorticellas must ever stand first among all the varied and
+beautiful objects which the microscope reveals. A species common in New
+England and the Middle States is known scientifically by the name of
+_Carchesium Polypinum_. It is impossible to convey a true idea of its
+beauty from a dead black and white drawing. To be appreciated it must be
+seen in all its living glory--charming little animals resembling
+bell-shaped lilies on the ends of lovely transparent stems.
+
+How curious nature is in the microscopic world! Only think of a tree of
+living animals! The stems of the tree are jointed, and the little
+creatures can sway the branches about and even throw them into a spiral
+coil so as to bring themselves near the main stem. This gives them the
+appearance of being very polite toward each other; they bow and courtesy
+as if preparing for a grand quadrille, and they are decked out in gay
+colors, red, green, and yellow. The margins of the little cups are
+fringed with hairs, or _cilia_, which they can put in such rapid motion
+that it makes a current in the water and brings little particles to
+their mouths which they consume as food. They do not accept everything
+that comes in the current. They seem to know what they like as well as
+the higher animals, and act as if they were vexed with some of the
+particles, rejecting and sending them off with a rapid whirling motion.
+
+The largest of these fairy-like trees are visible to the naked eye, but
+it will be necessary for a novice in such matters to use a good strong
+lens to be able to find them readily. They are attached to plants
+growing in water. I have always been most successful in finding them
+among the water-milfoil (_Myriophillum_) several species of which grow
+in New England and the Middle States. Some of the species are found in
+deep water, others in shallow ponds.
+
+The Bladderworts (_Utricularia_) are also good plants to search among.
+They grow in similar places. On either of these plants we shall be sure
+to find a good many interesting creatures. If we fail to find the tree,
+we may secure other species of vorticella, all of which are very
+beautiful.
+
+Do you know the _Utricularia_? I will devote the next chapter to these
+curious plants, and to the microscopic animals which they capture.
+
+It will take a little practice to learn where and how to collect
+material for the microscope. We should not depend too much upon books in
+any branch of natural history. To be successful, you must observe for
+yourselves, experiment and examine independently, consulting books that
+you may name and classify, that you may recognize and name what you
+find. If you fail to find specimens in one spot, try another.
+
+You should not fill your collecting bottles more than two thirds full of
+water, nor crowd too many plants in them. These little creatures must
+have air in order to live, as well as the higher animals.
+
+  [Illustration: FIG. 2.]
+
+The finest tree-vorticellas I ever found were in Florida, in the St.
+John's River. These trees were attached to long, floating stems of
+_Myriophillum verticillatum_, and were unlike any species that I ever
+found at the North. They were very large--in a microscopic
+sense--plainly visible to the naked eye, and it took only a moderate
+power to bring out their beauty.
+
+_Vorticella nebulifera_ is quite common in swamps and ponds. We find it
+attached to a great number of water plants. This species is not built up
+in the form of a tree, but it is nevertheless beautiful and graceful.
+The delicate, slender stems start from a node, or rounded mass,
+sometimes fifty or more of these fairy like creatures in one colony, all
+attached to a common centre, swaying about, coiling their delicate
+transparent stems, and again uncoiling quick as a flash, apparently
+dallying and playing, but never interfering nor becoming entangled one
+with another.
+
+The _Stentor_ is another member of the _Vorticellin�_ family. It is one
+of the largest of the infusoria, plainly visible to the naked eye, and
+one of the most interesting and curious of all the strange animals in
+the microscopic world. It assumes various forms. When swimming, it looks
+round and plump (_Fig. 2_), and rushes through the water pell-mell,
+knocking the smaller animals right and left, always seeming to be in a
+great hurry, unless two friendly ones happen to meet, when they
+frequently stop and put their heads together a moment as if exchanging
+greetings, then away they sail again, dashing through the water,
+capturing and devouring the smaller creatures as they go. And now a
+couple meet that are very communicative--two gossips, no doubt! At all
+events, they put their heads together and conclude to have a good
+sociable time.
+
+And they are sensible enough to know that they cannot stand around loose
+in the water or public highway. So they select a cosey spot and fasten
+their feet to a plant or some firm object, and stretch out their
+footstalks sometimes to a great length, making veritable trumpets of
+themselves. (_Fig. 3._)
+
+And who knows what grave matters may be settled during these conclaves?
+or perhaps they are only rehearsing gossip, as they have had every
+possible chance to see what was going on among their neighbors.
+
+  [Illustration: THE STENTORS.--"VERITABLE TRUMPETS."]
+
+Sometimes one settles down alone near a group of others, and seems to
+proclaim in stentorian voice that it is reception day and he is ready to
+receive. Or perhaps he is simply a herald as his name indicates, whose
+business it is to conduct ceremonies and regulate affairs! At any rate,
+though our ears are too dull to catch the voices of these curious beings
+of a lower world--so near, and yet in another sense, so far away, it
+would be difficult to believe that these animated creatures have no
+means of communication and nothing to communicate.
+
+
+
+
+PART II
+
+THROUGH A MICROSCOPE
+
+BY MARY TREAT
+
+
+IX.--THE UTRICULARIA.
+
+It seems strange that innocent-looking plants should capture and kill
+animals; but this is really what the Bladderworts (_Utricularia_) are
+all the time doing. They grow in ponds and swamps, some species in deep,
+still water, others in shallow ponds.
+
+Fig. 1 shows a portion of the stem of _Utricularia clandestina_, natural
+size. The little bladders are so nearly transparent, that on bringing
+them under the microscope, or even under a good lens, you can see the
+numerous creatures that they have captured, some partly consumed, others
+still alive.
+
+The bladders on these curious plants remind one of some of the
+_Entomostracans_ which Mr. Wells described in his fourth paper. Look at
+_Chydorus sphericus_ for instance, and then at the magnified bladder
+(_Fig. 2_) in this article. The branched horns at the mouth or entrance
+have very much the appearance of the antenn� of some of the minute
+animals, and the stem when it is attached to the main branch may be
+likened to a tail. But the way in which they capture and devour the
+pretty little creatures that come within their grasp makes them appear,
+even more than they look, like wicked animals.
+
+  [Illustration: FIG. 1. PORTION OF A STEM OF UTRICULARIA CLANDESTINA;
+  NATURAL SIZE.]
+
+I have found almost every swimming animalcul� with which I am
+acquainted, caught in these vegetable traps; and when caught they never
+escape. Their entrance is easy enough; there is a sensitive valve at the
+mouth of the bladder, which, if they touch it, flies open and draws
+them in as quick as a flash. These downward-opening bladders not only
+entrap animalcul�, but, more wonderful still, the strong larv� of
+insects. The larv� most frequently caught are those of the mosquito and
+chironomus. Often the mosquito is caught tail first--the entire body
+inclosed and the head left sticking out. It always looks as if the
+victim might walk or wriggle out, but it never does; and you may be sure
+that it never backed in there of its own accord.
+
+You all know how the mosquito larva wriggles in the water, and is known
+by the common name of "wriggler," or sometimes inaccurately, "wiggler."
+Now just as sure as the tail of this wriggler strikes the mouth of the
+bladder, just so sure is he caught--drawn in by some unknown power
+quicker than you can speak.
+
+There is yet much to learn about these curious plants. How it is that
+the valve or trap can so firmly hold these strong larv� is still a
+mystery. I have seen a mosquito larva caught by the head when the first
+joint of the body was too large to be admitted through the entrance of
+the bladder, and have patiently watched its frantic efforts to escape,
+but it was never released. The more it thrashed about, the tighter grew
+the fatal trap until death put an end to its struggles.
+
+The chironomus larva is quite unlike that of the mosquito. The
+chironomus has brush-like feet which it can withdraw from sight--a sort
+of telescopic arrangement--or extend when it wishes to crawl along the
+plants, while the mosquito wriggles and swims.
+
+The chironomus is caught more often even than the mosquito larva. At
+certain seasons of the year it is almost impossible to find a bladder
+without one or more of these victims entrapped.
+
+They feed on the water plants, and seem to have a special liking for the
+long-branched antenn� which grow at the mouth of the bladders, and, all
+unconscious of the trap, on, on they go, their sickle-shaped jaws
+cutting the antenn� which they eat as they advance, until their heads
+reach the mouth of the bladder, when they heedlessly touch the valve and
+the trap is sprung and they are drawn within, never more to escape, but
+to be slowly devoured.
+
+There is another interesting species of _Utricularia_, the _Purfurea_,
+quite different in many particulars from the first. It grows in deep,
+still water. The stems are long, sometimes two feet or more in length,
+and the branches radiate in every direction, so that one plant often
+covers quite a large surface of water. The flowering stems stand above
+the water, and each stem bears three or four very pretty violet purple
+flowers, and it blossoms nearly all summer.
+
+  [Illustration: FIG. 2. BLADDER OF U. CLANDESTINA MAGNIFIED TWENTY
+  DIAMETERS.]
+
+The flowers are about half an inch broad and quite conspicuous. Most of
+the other species have yellow flowers.
+
+There are no little thread-like leaves on this species, and the bladders
+are on the ends of the little branchlets, and they have no sharp-pointed
+antenn� as in the other species; but in their place is an elegant
+cluster of transparent glassy-like ornamental appendages. The ornaments
+are just above the entrance, and who knows but this is a contrivance set
+there to lure unwary creatures into the trap.
+
+One of the most common little creatures that was caught in this trap,
+was the _Tardigrada_, or water bear. He looks like a tiny cub, but
+unlike his great namesake, he has eight legs, and he frequently slips
+out of his old skin and comes out in a new suit.
+
+I often find them crawling in a forest of these plants, peering out of a
+thick jungle--now ascending a branch and out on a limb, holding fast
+with their long claws, and apparently looking around to see what they
+can find.
+
+Now one seems to be attracted to this elegant glassy cluster of
+_Utricularia_. At all events he is soon pushing his head among the
+delicate stems, then stops a moment, standing perfectly still as if
+listening. Perhaps he hears the groans of his dying comrades, but all
+unheeding the warning, he steps forward, touches the fatal spring, when
+in he goes to perish with his comrades.
+
+  [Illustration: FIG. 3. CHIRONOMUS LARVA: BACK VIEW WITH FEET DRAWN IN
+  AND JAWS CLOSED; SIDE VIEW WITH FEET EXTENDED AND JAWS CLOSED.]
+
+Young microscopists may like to know that the _Utricularia_ can be
+preserved in the house a long time by putting the stems or sprays in an
+open, shallow dish of water where they will grow readily. I have kept
+the plants months together in a large glass dish where they looked
+charmingly beautiful and were the admiration of all who saw them. It is
+very interesting to watch their growth. The ends of the growing sprays
+unroll like ferns, and with a magnifying glass you can see the
+development of the little bladders, and you may make discoveries--who
+knows? I know that for a long time it was a mystery to me how the
+bladders captured and imprisoned the little animals. Every day I saw
+they were entrapped and never escaped, and I studied and pondered over
+the matter a long time, and was so interested and determined to learn
+the secret that I spent night after night looking through the
+microscope, watching the strange, unwary creatures fall into the trap.
+
+At last I concluded to adopt the following plan: I took sprays of the
+plants that I had grown in clear water that contained no animalcules, so
+that all the bladders were empty and quite transparent. In another dish
+I had put a great many masses of mosquito eggs. Mosquito eggs are found
+floating on almost any standing water, in dark, compact masses. In warm
+weather they hatch in a few hours. So you can understand how quickly I
+could swarm a small vessel of water with the mosquito larv� by
+introducing the eggs where I wished them to hatch. When they were
+hatched I put some of the water in which was a large number of the tiny
+creatures into the live box with a spray of the plant containing empty
+bladders. I placed the box under the microscope and closely watched the
+manner of capture. I became certain that in almost every instance the
+larv� were caught tail first. The tail is brush-like, and when it swept
+over the door or valve that leads into the bladder, I saw that the door
+would immediately fly open and always draw the larva in. I soon became
+satisfied that the valve was very sensitive when touched at the right
+point, but to this day I cannot tell what the power is that so quickly
+draws the creatures within. I earnestly hope that some young
+microscopists will yet be able to ferret out the cause of this singular
+power.
+
+Those who have read Mr. Darwin's very interesting book on _Insectivorous
+Plants_, will have noticed that he says the valve of _Utricularia_ is
+not in the least sensitive, and that the little creatures force their
+way into the bladders--their heads acting like a wedge. But this is not
+the case, as Mr. Darwin himself was convinced some years before his
+death. In his usual kind, gracious manner he admitted that he was wrong,
+and gracefully says the valve must be sensitive, although he could never
+excite any movement. In a letter to me bearing date June 1st, 1875, he
+says:
+
+"I have read your article (in _Harpers Magazine_) with the greatest
+interest. It certainly appears from your excellent observations that the
+valve is sensitive.... I cannot understand why I could never with all my
+pains excite any movement. It is pretty clear I am quite wrong about the
+head acting like a wedge. The indraught of the living larva is
+astonishing."
+
+
+X.--FREE SWIMMING ANIMALCULES.
+
+The Brickmaker, Floscules, and Vorticellas are quiet peaceable citizens
+of the microscopic world, and seem to be impressed with the graver
+duties of life; they set up housekeeping and settle down for life moored
+to one spot. But there are many others that live a free-and-easy sort of
+life--a wandering gypsy kind of an existence, always on the move; and
+there is not much satisfaction in trying to follow these rovers if we
+wish to make a careful study of their structure.
+
+  [Illustration: SKELETON WATER WHEEL.]
+
+So to be enabled to examine them you will be compelled to imprison them
+in the live-box and bring just as much pressure to bear upon them as
+they will stand without crushing, which with careful practice you may
+soon learn to do. But if you are simply making the acquaintance of these
+little creatures for amusement, it is more interesting and satisfactory
+to watch them while they are unrestrained, and see the curious feats
+they perform.
+
+One of the most amusing of these little animals is the Skeleton
+Wheel-bearer (_Dinocharis pocillum_). His portrait is seen at _Figure
+1_. He has a long foot consisting of three joints, and these joints are
+as perfect as those of our own knees and elbows, and can be moved as
+easily forward and sideways, but not backward. The joints and foot are
+not covered with any fleshy substance, from which fact--the joints being
+so conspicuous--it probably received the name Skeleton. Two long slender
+toes extend from the last joint, and from the tips of these the Skeleton
+can show us more wonderful feats than any circus performer.
+
+The toes can be widely separated, or brought close together, like a pair
+of tongs. Sometimes he stands on the tip of one toe and throws his body
+forward, or from side to side with a rapid motion; then straightening
+himself up, he stands on the tips of both toes as if posing, remaining
+perfectly still for a few moments and giving us an opportunity to take a
+good look at his curious body which is encased in a pretty vase-shaped,
+three-sided transparent shell. The head extends from the top of the
+vase, and is surmounted with the usual cilia, or wheel, which we see
+among all the rotifera. When he is tired of posing, away he swims in a
+graceful, easy manner, with his long foot straightened out and the toes
+brought close together.
+
+You sometimes will find these pretty creatures, especially in
+summer-time, very numerous in the sediment at the bottom of your
+collecting bottles. Often I have found dead specimens, and very
+beautiful objects they sometimes are. Great numbers of tiny scavengers
+have completely cleaned out all of the soft parts of the body in a most
+neat and perfect manner, leaving the beautiful shell and vertical
+column, that runs through it, and the foot and toes, entire and perfect
+in all of their parts.
+
+Think of the minuteness of these scavengers--untold numbers of them
+preying upon the body of an object invisible to the naked eye; and yet
+this body is a mammoth by the side of one of the scavengers! The mind
+can scarcely grasp the minuteness of these tiny creatures--creatures
+that seem to enjoy existence, eating, and apparently playing and
+entertaining each other like the higher animals.
+
+  [Illustration: WHIPTAIL.]
+
+The whiptail (_Mastigocerca carinata_) (_Fig. 2_) is another delicate
+pretty little creature, and, like the skeleton, is encased in a glassy
+shell. It has a long, tapering, spine-like foot, or, more properly
+speaking, a toe which is attached to a very short foot by means of a
+flexible joint which allows free motion. You often will find him in
+company with the Skeleton, and they seem to vie with each other in
+performing strange feats. The Whiptail, if possible, looks even more
+comical than the Skeleton when it stands on the tip of its long toe, a
+toe which is longer than the entire length of the body, now bending over
+and nibbling at the plants, now whisking around as if looking and
+inquiring into some passing object, then sailing through the water with
+a graceful, easy motion beyond sight.
+
+_Brachionus pala_ is also a lovely creature encased in a delicate
+transparent shell. It is considerably larger than the Skeleton or
+Whiptail, and is just visible to the unassisted eye. If you drop it in a
+phial of clear water and hold it up to the light, you can distinctly see
+it gliding through the water like a revolving white speck. A moderate
+power of the microscope reveals its beauty. The shell is swelled at the
+sides, and narrow at the mouth, and round over the back, while the under
+side is flat.
+
+  [Illustration: LARGE ROTIFER.]
+
+Like the Skeleton and Whiptail, the head of the little Brachion is seen
+protruding from the upper part of the shell; but instead of one wheel
+this charming little creature has two, and nothing can be more lovely
+than a sight of these fast revolving wheels, like two beautiful crowns.
+
+The reason the wheel looks so strikingly beautiful in _Brachionus_ is
+owing to the long cilia which is longer in this genus than in other
+genera of this great family.
+
+The foot of _Brachionus_ is more curious than that of the Skeleton. It
+is telescopic, and the little animal has the most perfect control over
+it. He can draw it within the body so that it looks like a ball, and
+again quickly thrust it out and whisk it around in all directions like a
+tail. It has two short toes at the end which can be separated or brought
+together at pleasure. And he can firmly anchor himself by the toes and
+stretch forward, showing you the great length of the foot. Now he rolls
+from side to side without letting go his hold and performs other strange
+feats, and all the while the wheels are rapidly revolving, he has
+stopped his headlong career through the water and has settled down to
+get his supper.
+
+_Fig. 3_ represents one of the largest rotifers with which I am
+acquainted. I have never been able to find a description or engraving
+of it in any work on microscopy. But it is probably well known to
+microscopists, for it has a wide range. I have found it in New
+Hampshire, New Jersey and Florida.
+
+You cannot get a true idea of its graceful beauty from the drawing, as
+it is represented as it was seen in the live box with sufficient
+pressure upon it to keep it from moving, while serving as a model. And
+no engraving, however perfect, can give you any idea of its brilliant
+transparency and delicate coloring.
+
+The play of the muscles and internal organs are plainly visible, and you
+can always tell what he has chosen for dinner. Diatoms and desmids form
+a portion of his diet. His mouth is below the wheel. When he is hungry
+he anchors himself by his forked tail and sets his wheel in rapid
+motion, which makes a powerful current sufficient to bring quite large
+objects to his head, frequently too large to admit into the mouth. He
+will often repeatedly try to take a desmid entirely too large for his
+mouth, and his manoeuvres are quite comical as he whirls it round and
+round, nipping it on all sides. You will see by looking at the figure
+that everything has to be swallowed or taken within the body before it
+reaches the mouth. While the desmid is within the body the rotifer has
+control over it sufficient to take it into the mouth if it is of the
+right size, but if it is too large he soon becomes disgusted and ejects
+it with a sudden movement which sends it whirling rapidly away. And now
+he takes a smaller one and his jaws work vigorously a moment or two,
+when he swallows it almost entire, and we can plainly see the pretty
+markings and brilliant green color after it has passed into the stomach.
+
+This large rotifer is plainly visible to the naked eye, and you will
+find it in both shallow and deep ponds, wherever water plants grow,
+during the months of July and August.
+
+
+XI.--ON THE BEACH.
+
+Many of our young people spend the month of August at the seaside, and
+if those who wish to learn something of the curious microscopic animals
+will stroll along the beach when the tide has receded, until they come
+to rocky places and little pools filled with salt water and various
+marine plants, they will find a form of animal life quite different from
+that in fresh water ponds. These little pools along the rocky coast are
+the homes of countless numbers of zoophytes--animals which have a
+stronger resemblance to plants and flowers than any we have found in
+fresh water.
+
+Look for specimens for microscopic work on the surface of the rocks, on
+dead sea shells, and on the sea-weeds. On the sea-weeds you will often
+find a white filmy network which to the unassisted eye looks like simple
+white threads running and spreading in every direction, and at every
+angle of the network a tiny stem shoots up, branching out like a tree
+and making a miniature forest.
+
+Now if you apply a low power of the microscope, you will find the little
+forest is made up of a strange animal called _Laomeda geniculata_.
+(_Fig. 1._) Each branch of this compound animal terminates and expands
+into a lovely vase and is the home of a polype. The polype is not a
+separate individual any more than the end of a growing branch is
+separate from the tree on which it grows.
+
+  [Illustration: LAOMEDA.]
+
+When the creature is hungry he sends out from the margin of the vase
+from fifteen to twenty tentacles, ranged around the rim like the petals
+of a flower. _Figure 1_ shows one of these expanded polypes as seen
+through the microscope.
+
+The tentacles or feelers are fishing rods to bring game to the fleshy
+mouth which is protruded from the centre of the vase. A great many such
+mouths surrounded with their tentacles are necessary to feed this
+singular compound creature.
+
+All that I can tell you of these microscopic animals will be nothing
+compared to a study of them with your own eyes, so I will only give you
+hints of what you may expect, thereby hoping to create sufficient
+interest to induce you to stroll to out-of-the-way places, where you may
+find many of Nature's marvellous works. We want more field workers in
+every department of Natural History, and especially in microscopy where
+unexplored fields are awaiting you.
+
+When the tide has receded, various objects of interest will meet your
+eye at every step. Look at that old dead sea shell covered with a rough,
+shaggy nap. Ah, as we approach, the shell is moving off! What can it
+mean? Why, it means that a hermit crab has set up housekeeping in the
+old shell, and he, no doubt, thinks us suspicious characters and wants
+none of our company. But we are after microscopic objects now, and this
+hermit, interesting as he is, is not to claim our attention to-day. The
+rough coat on the outside of the shell is of more interest.
+
+With the aid of a pocket lens you will find it another zoophyte. You
+can see the polypes, as thick as they can well stand, rising erect and
+straight from the shaggy coat like a miniature field of wheat. With a
+higher power you will see that each mouth is surrounded with tentacles
+like those of _Laomeda_, but yet it is quite a different looking
+creature. If we touch one of these polypes ever so lightly, the great
+army immediately close their tentacles, for the same life pervades the
+entire colony, and those on the extreme outer edge feel the contact as
+quickly as the one we touched.
+
+  [Illustration: LARES.]
+
+One of the most comical and amusing creatures of all the zoophyte tribe,
+is figured and described by Mr. Gosse under the name of _Lar
+Sabellarum_. He was the first observer of this curious creature; he
+found it inhabiting the outer edge of the tube of a worm--the Sabella.
+So when you are looking for microscopic objects do not overlook any tube
+that you may see standing above the surface of sand and mud, as it may
+be surrounded by this singular zoophyte. The tubes usually extend an
+inch or two above the surface, and about as far below. I have found the
+tubes surrounded with the creatures, but not in as good condition for
+investigation as those Mr. Gosse mentions. Mine were too thick and
+crowded to distinguish clearly. But as Mr. Gosse describes them, they
+have a most close resemblance to the human figure as they stand erect
+around the mouth of the tube of Sabella.
+
+A loose network surrounds the top of the tube and the strange forms
+spring from the angles of the meshes. The creatures are furnished with
+heads, and immediately below the head are two arms. (_Fig. 2._) The head
+moves to and fro on the neck, while the arms are tossed wildly about as
+if gesticulating in the most earnest manner. Or, as in the wild and
+disorderly dances of savages the body sways back and forth while the
+arms are thrown upward and downward in a frantic way.
+
+One summer I found a colony standing so thickly together that they did
+not show off to very good advantage. Apparently they were like a packed
+army of Liliputians, striking out with their arms and struggling with
+one another. But when I came to observe them more carefully, I found
+they were not interfering with one another at all, but each was intent
+on his own business of obtaining a livelihood.
+
+  [Illustration: HAND OF BARNACLE.]
+
+The Sabella which inhabits the tube, is of itself a most attractive
+object. Most elegant fringed filaments proceed from the head, and wave
+back and forth like a fan, and near the ends of these delicate slender
+filaments are little black balls, supposed to be eyes. If they are eyes,
+the Sabella has no lack of vision, and this may account for his seeming
+watchfulness. He is always on the alert and drops down into his house at
+any approach. Only with the utmost caution will you have an opportunity
+to leisurely look at his rare beauty.
+
+When for the first time I saw this elegant, beautiful creature rising
+out of the tube, and waving its fringed fan-like filaments, I did not
+wonder at Mr. Gosse's enthusiasm. Neither was I surprised that he should
+be reminded of the old Roman mythology and call the zoophytes which
+surround the tube, "Lares," for the rare beauty of Sabella would suggest
+the protection of guardian spirits. He says:
+
+"These curious creatures have afforded much entertainment, not only to
+myself, but to those scientific friends to whom I have had opportunities
+of exhibiting them. When I see them surrounding the mansion of the
+Sabella, gazing, as it were, after him as he retreats into his castle,
+flinging their wild arms over its entrance, and keeping watch with
+untiring vigilance until he reappears, it seems to require no very vivid
+fancy to imagine them so many guardian demons; and the Lares of the old
+Roman mythology occurring to memory, I described the form under the
+scientific appellation of _Lar Sabellarum_. You may, however, if it
+pleases you better, call them 'witches dancing round the charmed pot.'"
+
+When the tide is out you will frequently notice barnacles adhering to
+the rocks, or to the timbers used in the construction of wharves. Pray
+stop and examine them critically and see what admirable fishers they
+are. Their fishing-nets are composed of several long, flexible, jointed
+fingers, thickly beset with sensitive hairs. When the fisher wants a
+meal he thrusts his long hand (_Fig. 3_) out the door of his stone
+house; the sensitive fingers quickly tell when they come in contact with
+anything good to eat, and they curl over and grasp it and convey it to
+the mouth.
+
+These barnacles are wonderful creatures and well worthy your continuous
+study. They pass through several stages. When young they are a gay
+rolicking set, swimming freely in the water; but as maturity approaches
+they settle down in stone houses, never more to rove about, and set up
+fishing for a living.
+
+
+XII.--RHIZOPODS.
+
+Rhizopods are the lowest creatures in the animal kingdom. Some of them
+are apparently nothing more than animated protoplasm. Protoplasm
+pertains to the first formation of living bodies, whether vegetable or
+animal, and it appears to be only a viscid, glutinous, unformed mass of
+jelly-like substance, yet these rhizopods seem endowed with something
+more than simple life.
+
+  [Illustration: FIG. 1. AMOEBA PRINCEPS, IN DIFFERENT FORMS.]
+
+Let us take the lowest of these lowly creatures, the _amoeba_, or
+proteus, which we may find during the summer in almost every fresh water
+pond. I cannot describe it, for, like its namesake, it is constantly
+changing its form, slipping away from us, as it were, right before our
+eyes, and assuming a new shape. As Proteus of old could assume any form,
+either plant or animal as he pleased, so our _amoeba_ can assume
+various forms at pleasure.
+
+You will remember that Homer introduces Proteus in the fourth book of
+the _Odyssey_. He makes him the servant of Neptune, and says his office
+was to take care of the seals or sea-calves. And who knows but his
+namesake may have some such office among the curious beings of the
+microscopic world which is peopled with as many strange creatures as
+those we read of in ancient mythology?
+
+We frequently see our proteus adhering to a leaf of some water plant
+when it looks like a little ball of jelly; and while we are looking at
+it, it pushes out an arm here, and now another there, and still another,
+as if feeling for something. (_Fig. 1, Amoeba princeps._) Not finding
+anything to its taste, it moves or crawls along with its temporary arms
+extended--all the while changing them, throwing one out on this side,
+then on that, then contracting and pushing out in another place. It
+seems to be actively in search of something. At last it has reached a
+moving diatom with one of its long arms, which it immediately wraps
+around it, and now the other arms are contracted and the creature
+actually folds itself around its dinner! He turns himself outside in,
+and makes a temporary stomach, and proceeds to digest the soft parts of
+the diatom. After he has extracted all the nourishing part, he squeezes
+or pushes out the clear, transparent shell, and starts in search for
+something more.
+
+It is not known to a certainty how the _amoeb�_ are produced, but this
+much is known: If a portion of the body is detached from the rest, it
+does not die, but becomes an independent _amoeba_. If a portion of one
+of the arms becomes separated from the main body, it does not seem to
+incommode the creature in the least, and the small part soon begins to
+extend tiny arms and behave in every way like its parent. And this may
+be the only way in which the children of Proteus are made--veritable
+children of his own flesh.
+
+How strange it seems that a jelly-like mass of substance without form or
+organization should be endowed with life and sufficient sense to go in
+search of food and have the power of selection.
+
+Life manifested in the lowest animal or plant is just as wonderful and
+hard to understand as that which pervades the higher animals.
+
+Some of the species of the fresh water _amoeba_ live in shells of
+various forms and patterns. One which we often see has a little house
+made of tiny particles of sand and minute bits of shell soldered
+together with a kind of cement which hardens in water; these are vase or
+pitcher-shaped and always look rough on the outside.
+
+  [Illustration: FIG. 2. TESTACEOUS FORMS OF AMOEBAN RHIZOPODS.]
+
+We may always know the different species by the forms and patterns of
+the shells in which they live. Some have very regular shells and
+prettily marked. These are usually rounded or arched on one side and
+flat on the other.
+
+When you are looking for various microscopic objects in pond water you
+will often see these tiny shells among the sediment on your slides, and
+if you will patiently wait a few moments you will soon see delicate,
+transparent arms slowly pushing out on every side like cautious feelers.
+(_Figure 2, Amoeba in Shell._--_Carpenter_, p. 445.)
+
+But the most beautiful forms, and by far the greatest variety of these
+microscopic shells are found in the ocean and in marine deposits. If we
+look at the seaweeds which grow on the rocks we may see many white
+specks adhering to every part of the plants. With a lens we find the
+minute specks are spiral shells of many species belonging to the class
+_Foraminifera_, and very closely allied to the _amoeba_. The shells
+are of most elegant form and pattern. The large sea-shells which we so
+much admire are not half so lovely in form or color as these seen
+through a microscope. Some of the living animals and the castles in
+which they dwell are crimson in color, others a delicate pink.
+
+Let us take one of these living shells while it clings to the sea-weed
+and carefully cut off the smallest portion of the plant to which it
+adheres, so as to disturb the occupant as little as possible; and now
+place it in the live box with some of the salt water and we shall soon
+have a most beautiful sight.
+
+See, the creature is throwing out delicate, transparent threads or
+filaments in every direction, like fine-spun glass. How charming it
+looks with the beautiful shell in the centre, surrounded by this moving,
+filmy halo, and how slowly and cautiously the filaments are extended! He
+is not a heedless, reckless creature, rushing into needless danger, but
+a quiet, timid citizen. Although he was such a long time throwing out
+his misty arms, when he scents danger he withdraws them as quick as a
+flash. The least jar of the live-box, or a little wriggling larva--much
+too large for him to manage, however--are sufficient to make him take in
+all of his lines; but when quiet is restored, they are again stretched
+out. And for what purpose are these slender filaments extended? Ah, an
+innocent animalcule has become entangled among the shimmering, filmy
+threads, and now the threads coalesce, run together like the arms of
+_amoeba_, and disappear, and the animalcule is drawn within the walls
+of the beautiful castle, and we are left to conjecture the fate of the
+little victim. _Figure 3, Rotalia Ornata_--which shows its delicate
+filaments extended.
+
+These tiny creatures have been so numerous way back in the early ages of
+the world, that entire strata of rocks, several feet in thickness, in
+various parts of the world, are made up of their skeletons. The city of
+Richmond, Virginia, is built over rocks, composed largely of the minute
+fossils of _Diatomace�_ intermingled with the _Foraminifera_ and others.
+
+  [Illustration: FIG. 3. ROTALIA ORNATA.]
+
+A single prepared slide of these fossils will afford entertainment for
+an entire evening, so great is the diversity of form and so many
+hundreds on one slide. The Bahama Islands furnish the finest specimens
+of these fossils. The slides can be procured of any large dealer in
+optical instruments, or, what is still better, the young microscopist
+can soon learn to prepare them for himself, as ample directions are
+given in the books on the microscope.
+
+In bidding my young readers adieu I shall not lose entire thought of
+them, but often when I am engaged in looking through the microscope, I
+shall think and ask myself, "Are they, too, absorbed in this pleasant
+work, and how many will become true workers and original investigators
+in this great field?" We shall all know in due time, for no earnest
+worker in any branch of science can long remain unknown. He will be
+found out sooner or later. A devoted student in microscopy will become
+so happy over the marvellous creatures and their curious ways that he
+cannot keep his pleasure to himself.
+
+
+
+
+PART III
+
+A HOME-MADE MICROSCOPE, AND HOW TO USE IT
+
+BY FREDERICK LEROY SARGENT
+
+
+XIII.--HOW TO SEE A DANDELION.
+
+A simple microscope, some mounted needles, a sharp knife and a pair of
+small forceps, are the only things needed to begin with.
+
+There are many kinds of simple microscopes sold, some of which are of
+moderate price and answer every purpose; but if one has a little
+mechanical skill the cheapest way is to buy a magnifier and make the
+rest of the microscope one's self. What is known as the "bellows
+pattern," with three lenses, is one of the best of the cheaper forms of
+magnifiers, and is an admirable little instrument.
+
+_Fig. 1_ shows a home-made microscope ready for use. It will be seen
+that the main part consists of a wooden box having a hole in the top and
+open in front. To the back is attached a cork by means of a piece of
+thin metal as shown in _fig. 2_. Through this cord slides a rod on which
+slides another cork. A piece of brass wire has one end wound round the
+upper cork while the other end projects as an arm at right angles to the
+rod, and this projecting end sharpened and upturned, passes through
+holes drilled in the handle of the magnifier, and thus supports it. The
+lenses are focused, _i. e._ brought to the right distance from the
+object viewed, by sliding the cork up and down on the rod.
+
+  [Illustration: FIG. 1.]
+
+The object rests on a piece of glass laid over the hole in the top of
+the box. A piece of wood covered with white paper and placed below the
+object at an angle of about forty-five degrees answers for a reflector
+to illuminate those objects through which the light can pass. The pure
+white surface is better for the purpose than a mirror.
+
+  [Illustration: FIG. 2.]
+
+The most delicate part of the construction is making the holes in the
+corks for the rod to slide through. This may be done perfectly, however,
+by making the holes with a rat-tail file, trying the rod now and then
+until it moves just right. The best thing for the rod is a piece of
+brass wire one quarter of an inch thick; a lead pencil however is a good
+substitute. Before bending the end of the brass wire arm it is well to
+heat it red-hot at the point of bending, to take out the temper: as
+otherwise it may break. The holes in the handle of the magnifier should
+be drilled as near the front as possible and so arranged that when the
+magnifier is in position the smallest lens will be near the object.
+
+  [Illustration: FIG. 3.]
+
+The mounted needles are shown in _fig. 3_. One pair of each kind will be
+enough to start with. To make one, take a fine needle, break off about a
+third, so it will not be too long and springy; then with a pair of
+pincers force it into the handle point first, withdraw it and finally
+force it in again with the point out. It may be easily bent with the
+pincers by first heating it to redness in a flame. When bent, heat it
+red once more and plunge quickly into water to re-temper it. Rubbing on
+an oil stone may be necessary to remove roughness. Should the handles
+show any tendency to split, it would be well to wrap the end tightly
+with waxed thread.
+
+The forceps (_fig. 4_) may be purchased either of brass or steel at no
+great expense. Although not necessary it is more convenient to have them
+curved than straight.
+
+  [Illustration: FIG. 4.]
+
+If the reader will carefully follow the directions given below and
+endeavor to see for himself all the parts spoken of, he will probably
+have very little difficulty afterward in the use of the instruments just
+described; and the enjoyment he will have when he has learned how to
+examine little things, will amply repay for careful and persistent
+efforts at the start. Get a Dandelion in full bloom and also one that
+has gone to seed.
+
+Have the microscope and the other instruments ready for use. The best
+place to work is on a table in front of a window where there is plenty
+of light, but not the direct rays of the sun.
+
+Now cut the blossom in halves from the stem up. It will be seen that the
+stem is hollow and ends above in a cushion-like expansion. From the
+upper surface of this grow a number of little flowers, while from the
+sides there sprang two rows of little green organs that enclose the
+flower cluster like a cup. Remove one of the flowers with the forceps
+and place it in a drop of water on the glass stage of the microscope.
+Examine with one and one half inch power.[A]
+
+Be careful to get just the focus. You are now ready to see the general
+form of the flower. At the base is a little body with roughened sides
+and slightly narrowed above (the ovary). Springing from the top of the
+ovary are a number of fine bristles (the pappus). Inside the bristles is
+a yellow portion, tubular below and flat above (the corolla).
+Projecting from the tube of the corolla is a little yellow rod (the top
+of the stamens joined together); and coming from among the stamens are
+two slender recurved organs (the stigmas).
+
+Now take a mounted needle in each hand and holding one needle on the
+flat part of the corolla split open the tubular part with the other. By
+keeping the lower part spread open with the needles, you will see that a
+number of delicate yellow threads grow from the sides of the corolla and
+are connected with the yellow stamen rod. These threads are another part
+of the stamens. In the middle of the flower is a single thread-like
+organ (the style) which comes from the top of the ovary and passing
+through the stamens projects beyond them, divided into two stigmas.
+
+Most of my readers have probably studied enough botany to know the names
+of the different parts of a flower, but very likely many of them do not
+recognize the parts of the Dandelion flower as looking anything like the
+parts of the flower with which they are familiar.
+
+Before proceeding further, therefore let us take a Morning-Glory
+flower--which you all know and can easily obtain, or at least some
+flower like it--and let us see that the parts of the two correspond.
+
+Commencing in the centre we find in both a pistil, consisting of an
+ovary at the base and a stigma at the top and a style between. In the
+Dandelion the stigma is split in halves, while in the morning-glory it
+is not split but has three little knobs. Around the pistil come the
+stamens in each case. Each stamen is composed of two parts: a slender
+stem (the filament) and a little sac at the end (the anther) which is
+filled with pollen dust. In both cases the filaments grow out of the
+sides of the corolla. But while in the Morning-Glory the anthers are
+entirely free from one another, in the Dandelion they are joined
+together by their sides and form a tube around the style. The corolla in
+both cases is all of one piece, but in the Dandelion it is as if the
+upper part of the corolla were split open one side and then made flat.
+Instead of a green calyx as in the Morning-Glory, the Dandelion has a
+number of delicate white bristles. And, finally, in the Morning-Glory
+both the calyx and corolla grow out from below the ovary, while in the
+Dandelion its calyx of bristles and its corolla issue from above the
+ovary. So after all, you will see that corresponding organs are in both,
+and the difference between the two flowers is not so great as one might
+think at first.
+
+Let the different parts of the Dandelion be examined now more minutely.
+First take some of the bristles and examine them with one quarter inch
+power. They are not perfectly smooth, but are more or less saw-like on
+the edge. With the same power look at other parts of the flower; notice
+the hairiness of the stigmas, the pollen grains coming out of the
+anthers (some grains may be found on the stigmas) also the roughness of
+the ovary and the delicate ribs or veins in the corolla. Examine one of
+the seed-like fruits with one and one half inch power. It is a ripened
+ovary. Compare the fruit with the ovary of a flower. The nutlet has
+become hard, rougher and more strongly ribbed. The narrowed upper part
+of the ovary has become much elongated and the pappus is spread out like
+an inverted umbrella.
+
+Examine some bristles with one quarter inch power. They show the
+saw-like edges much more developed than in the younger bristles of the
+flower. We see throughout a beautiful adaptation of every part for
+fitting the little parachute to be carried long distances by the wind
+and finally to catch on some suitable place in which to sprout.
+
+
+XIV.--HOW TO SEE A BUMBLE BEE.
+
+You will first need to catch your Bumble Bee. A little chloroform poured
+on one will kill it instantly. Make a general examination at the outset
+of the insect. The outside of the body is horny and covered thickly with
+hairs. On the upper side the hairs are much more numerous than on the
+under side. The whole body is divided into three regions: the head,
+bearing the feelers and mouth-parts; a middle part (thorax) bearing the
+four wings and six legs; and a hind part (abdomen) armed with the sting.
+
+Remove the head and examine with one and one half inch power. At the
+sides are two prominent oval bodies (compound eyes) which seem to be
+crossed by five lines; near the top of the head, between the compound
+eyes, are three little shiny bead-like organs (simple eyes); starting
+from about the middle of the face are the two feelers (antenn�) and at
+the lower part of the head are the mouth-parts. The sides, top and front
+of the head are all covered with hair.
+
+Examine one of the compound eyes with one fourth inch power. The surface
+is made up of innumerable little facets, something like a cut diamond.
+
+Cut off a piece of one of the compound eyes, remove some of the black
+pigment on the back and examine the piece in a drop of water. Each facet
+is a tiny hexagon. Some care is necessary to see them well.
+
+Remove an antenna and examine it with three fourths inch power. It is
+thickly covered with minute hairs which give it a velvety appearance.
+Count the joints. At the base is the longest joint; at the lower end of
+which is a little knob that fits into a socket in the head. The next
+joint is quite small while those beyond are much alike.
+
+Scrape the hairs from the face and examine the horny shell with three
+fourths inch power. The surface is full of little pits. In the upper
+part of the face there is a groove, in the middle of which is one of
+the simple eyes. Just below the antenn� sockets is a groove which
+extends crosswise a short distance on either side and then bends
+downwards to the mouth. The portion of the face bounded by this groove
+is called the clypeus. At its lower part is hinged a little oblong piece
+(labium) which may be moved up and down with a needle.
+
+Melt a piece of sealing wax on the centre of a slip of glass (taking
+care not to break the glass by too sudden heating) and before the wax
+hardens press the head into it face downwards.
+
+Examine with one inch power. The hole near the top of the head shows the
+position of the neck. The portion of the head around this hole is
+destitute of hairs and is hollowed in, to make room for the rounded
+front part of the thorax. Below this one there is another cavity which
+contains a portion of the mouth parts when they are retracted. At each
+side of the mouth in front of the base of the sucking organs, are the
+two jaws (mandibles) each with a little tuft of hair on the outer side.
+The jaws move freely to and from each other, sideways instead of up and
+down as do the jaws of the higher animals. The sucking apparatus
+consists of five pieces viz: two outermost pieces each tapering to a
+fine point, two, each of which ends in three little joints and one in
+the centre which projects beyond the others. It may be necessary to
+spread these out with the needle, to see them well.
+
+Separate the thorax from the rest of the body. Scrape off the hairs on
+the back. Two principal grooves extend across the back, one near the
+front and one near the hind margin. The thorax is composed of three
+divisions and these grooves show where they are joined together. The
+hind division bears the hind wings and the hind pair of legs; the middle
+division, much the largest division of the three, bears the fore wings
+and the middle pair of legs; and the foremost division is quite small
+and bears only the front pair of legs.
+
+Remove the wings of one side and examine in a drop of water with one and
+one half inch power. The wings consist of a shining transparent membrane
+strengthened by numerous horny veins running through it. Examine with
+one half inch power. The membrane is seen to be covered with minute
+hairs and little dots. On the front edge of the hind wing a short
+distance from the outer end is a row of hooks. At a corresponding place
+on the hind edge of the fore wing there is a thickening or ridge. When
+flying, the hooks catch onto the ridge and thus the wings are held
+together and act as one large wing.
+
+Examine this grappling apparatus with one fourth inch power and with the
+needles hook the wings together and pull them apart. If you look through
+the magnifier while you do this you will get a good idea of the form of
+the ridge and of how the hooks catch onto it. Remove one of the
+forelegs, being sure that none remains attached to the body. Examine
+with one and one half inch power. The extremity is armed with two claws;
+then come four short joints followed by one about as long as the others
+together. All these make up the foot. The next joint above is the shank,
+then comes the thigh and then quite a small joint, the lower hip, and
+lastly attached to the body is the upper hip.
+
+Remove the last five joints of the foot (the claw part, and the other
+four joints) examine with one third inch power. The claws have each a
+branch projecting from the inner edge. Between the claws is a little
+velvety pad. Each of the small joints is covered with short closely
+appressed hairs and from the lower end of each joint project several
+spines. Now examine the remaining long joint of the foot attached to the
+shank. At the upper end of the inner side is a deep semicircular notch,
+the upper portion of which is light colored. Beside the notch is a
+peculiarly shaped movable spine which projects from the lower end of the
+shank. This queer arrangement is what the bee uses to clean his feelers.
+The reader has probably seen the operation performed by a bee or a wasp.
+The leg is thrown over the feeler, the latter is grasped at that
+particular bend of the leg where the cleansing apparatus is situated and
+then drawn through from base to tip; and this is repeated several times
+with each feeler.
+
+Examine with one and one half inch power a leg from each of the other
+pairs and compare the corresponding parts. They differ chiefly in size
+and in the absence of the cleansing apparatus. You cannot fail to
+admire the many beautiful forms of the different portions. On the outer
+side of the hind shank is a smooth flattish surface destitute of hairs,
+excepting a fringe of long ones at the margin. At this place may
+sometimes be found a sticky mass of pollen intended for bee-bread.
+Examine the abdomen with one and one half inch power. It is composed of
+several wings. If some of the hairs are scraped off this will be shown
+more clearly. From the hind extremity projects the sting.
+
+We have far from exhausted all the beautiful and interesting points in
+the make-up of a Bumble Bee, not even those that may be seen with the
+limited powers of a simple microscope; but probably enough has been said
+to show the reader that such things are well worthy of study and it is
+hoped that enough directions have been given to render future use of the
+instruments comparatively free from difficulty.
+
+
+XV.--SOME LITTLE THINGS TO SEE.
+
+There is no end to the beautiful and wonderful things one can see with
+the simple microscope. Only a few of the more attractive and easily
+obtained of these are now to be mentioned.
+
+To begin with, there are ever so many pretty flowers to look at. The
+asterworts, that is, such flowers as the daisy, aster, golden rod,
+dandelion and thistle, are particularly full of beauty. The blossoms are
+all made up of a number of little flowers as in the dandelion; but the
+shapes and colors and so forth, of the different kinds are exceedingly
+various. Some, such as the asters and daisies, have two kinds of flowers
+in the same blossom--flowers with strap-shaped corollas (like the
+dandelion's) are arranged along the margin of the blossom, while in the
+centre are little flowers with star-shaped corollas presenting a much
+different appearance. Flowers of many of the Parsley Family, for
+example wild carrot, wild parsnip and caraway, are quite odd. Very
+pretty flowers are found among the grasses, sedges and common weeds. The
+different trees as they bloom in spring--the maples, elms, willows,
+poplars, sassafras and hosts of others--all have flowers that are
+perfectly lovely. Most of these flowers need to be picked to pieces
+under the magnifier to show up their full beauty. The parts of flowers,
+both small and large ones, deserve attention. Frequently one meets with
+remarkable forms.
+
+Seeds are highly interesting. They are often handsomely marked with
+series of pits or projections, grooves or ridges. One meets with many
+curious appendages by means of which the seeds are carried off and sown
+at a distance from the plant. Some, like the dandelion, have a parachute
+attachment; others have wings to catch the wind, and others still are
+covered with hooked spines whereby they become attached to the fur of
+animals, there to remain until brushed off onto the ground.
+
+Leaves and stems sometimes have on them beautiful hairs and oil-glands.
+The wooly covering of common mullein, for example, is made up of
+innumerable slender-branched hairs. These show best when a piece of the
+leaf broken off is looked at edgewise.
+
+If you examine the fruit-dots on the backs of the different kinds of
+ferns you will be surprised to find how pretty they are and of how many
+different shapes. Sometimes the fruit is not borne on the back of the
+leaf but forms little clusters by themselves, which are sometimes at the
+end of the fern, sometimes in the middle, sometimes on a separate stalk.
+
+Mosses, lichens and sea-weeds are well worth looking at.
+
+Early in the summer an exquisite little fungus called "Cluster cups" may
+be found on the underside of barberry leaves. Hawthorn and other plants
+have handsome fungi on them later in the season.
+
+By observing closely while out in the fields or woods, one sees hovering
+about in swarms, myriads of tiny insects. Under the lens some of them
+are very odd, others very beautiful. The easiest way to catch these
+little midgets, is to wet the palm of the hand and then sweep it among
+them, or in the same way use a piece of sticky paper.
+
+The study of the different parts of insects is one of the most
+fascinating of the many uses of the Simple microscope. Although all
+insects are made up on the same general plan and corresponding organs
+occur in most of them, there is an endless variety in the forms under
+which we see the different organs and the uses to which they are put.
+
+Take for example the antenn�. In the grasshopper it is long and
+threadlike; in the butterflies always ending in a knob; in moths always
+tapering to a point, although sometimes threadlike and sometimes much
+branched, forming a beautiful plume; in the beetles, sometimes fan-like,
+sometimes like a comb; and in other insects assuming still other forms.
+Insects' eyes are often colored beautifully. A horse-fly's eyes are
+striped. Butterflies' eyes have usually a soft liquid coloring, and
+moths' eyes in the dark shine like little fiery beads.
+
+The mouths of insects, such as beetles, grasshoppers and dragon flies,
+have strong jaws for biting; flies, bugs, moths and butterflies, have
+the mouth-parts transformed into sucking organs, while bees, wasps and
+the like have both sucking organs for honey, and biting organs for
+leaf-cutting, wood-tearing etc. as we saw was the case in the Bumble
+Bee.
+
+Butterflies' wings and moths' wings are covered with little scales of a
+variety of shapes. These should be examined attached to the wing to show
+their arrangement which is like that of shingles on a roof; but to show
+their form they should be looked at when brushed from the wing onto a
+piece of glass. Many other peculiarities may be noticed in the wings of
+other kinds of insects.
+
+Legs, the same as the other organs, have various forms, markings and
+appendages, and so it is with the abdomen and its stings or its
+egg-laying apparatus.
+
+The hairs of "Wooly Bears" and caterpillars of that kind are peculiarly
+branched.
+
+The four hind pairs of feet in caterpillars are armed each with a row
+of little hooks which are used in walking to get a firm hold. The larger
+caterpillars show the hooks best.
+
+Sometimes you will find pretty insect eggs on the underside of leaves or
+on stems, and also little silken cocoons in similar places. If you are
+near a pond-hole, or an old hogshead that collects rain water, you can
+find a good many little animals, some of them very frisky--young
+mosquitoes or "polywogs," water-fleas, cyclops, little worms, young
+dragon-flies and lots of others. When you go to collect them take a
+small wide-mouth bottle and, having found a place where there is what
+you want, lower your bottle, mouth down, in the midst of them and when
+it is well under water turn the mouth upwards. A good many of the
+animals will run in with the water. If the first time you do not get
+what you want, the second time you may. When you want to examine them at
+home you can fish them out with a glass tube and put them in a watch
+crystal or on the glass stage of the microscope. In using the tube take
+it between the thumb and middle and third fingers, and close the top
+with your first finger; then put the lower end of the tube in the water
+close to the thing you want to catch; now lift your first finger quickly
+and the water will run in the lower end of the tube carrying with it
+your little squirmer, unless he has been too quick for you. Close the
+top of your tube again and the water will not run out when you remove
+the tube, until you lift your finger. Sometimes it takes a good deal of
+patience and skill to catch the more agile of the little water animals.
+Glass tubes are sold in drug stores for five or ten cents.
+
+If you begin by examining the objects already spoken of, you will while
+looking for these be continually discovering for yourselves new objects
+possessing new beauties and will soon see that not half the interesting
+things you can find have been ever hinted at.
+
+The way to find out about all these things is to go out into the fields
+and woods, and form the habit of observing closely what is around you.
+Carry your magnifier along and look at this flower, that fern, this
+insect, that moss, with different powers of the magnifier; and when you
+come across any objects worthy of a more careful examination carry them
+home and examine them systematically with Simple microscope, needles,
+knife, and so forth. Insects may be kept well in alcohol until winter,
+and then careful studies may be made of them.
+
+When using the magnifier in the field, hold it in such a way that the
+smallest lens will be nearest the object when the lenses are combined
+and be careful not to shade the object with the hand or the hat brim.
+Just enough light should fall on the object to make its examination
+comfortable for the eyes. If you rest the hand holding the magnifier on
+the hand that holds the object, both lens and object can be held much
+steadier. When commencing to examine an object it is best to have the
+three lenses spread apart, for in this way you can use first the lowest
+power then those higher and finally, if you wish to, the three lenses
+combined. The dissecting forceps are very handy to have in the field,
+both for picking up anything too small for the fingers and for holding
+an object to be examined.
+
+A collection of some of these little things preserved and ready for
+examination adds greatly to the pleasures of studying them. Of course
+all the different kinds of objects cannot be preserved so as to show
+their full beauty, but many can be and the following directions will
+tell how to make a very good collection:
+
+Seeds, fern-fruit, insects and other opaque objects like these may be
+mounted on pasteboard slides. One of these slides consists simply of a
+stout piece of pasteboard, having a hole cut in the centre and a piece
+of thick paper or cardboard glued on the under side. The object is
+attached to the cardboard at the bottom of the hole.
+
+It is best to make a number of these slides at a time. Having procured
+some quite thick pasteboard, from old paper boxes, rule lines on the
+surface dividing it up into spaces three inches long by one inch wide.
+In the centre of each space cut out a hole about half an inch in
+diameter. A sharp knife will make a neat square hole or a good round one
+may be made with a gun-wad punch. This done, the spaces may be cut apart
+with a sharp knife and ruler, along the lines already drawn. Pieces of
+cardboard for the backs should be cut a trifle larger than the
+pasteboard portion of the slide; after they are glued onto the latter
+they may be trimmed down neatly with a pair of scissors. Glue or
+mucilage containing glycerine (in the proportion of one or two
+teaspoonfuls to an ordinary bottle of mucilage) is the best thing to use
+for sticking on the backs. While the slides are drying they should be
+either under a weight or in a clamp screwed up tightly, so as to prevent
+their twisting out of shape. The mucilage may be prevented from being
+squeezed in round the edges of the hole, by taking care when putting it
+on not to have it come too near the hole. One or two coats of India Ink
+may be painted on the middle of some of the pieces of cardboard, either
+before or after they are put onto the slides; and thus a black
+background may be obtained for the lighter-colored opaque objects. Many
+of the objects will however show best on a white background.
+
+When you have the slides all made, nothing more is needed to mount an
+object, than simply to attach it to the bottom of the hole with a
+little mucilage and glycerine, or something of that sort, and finally to
+write the name of the object on the front part of the slide, and on the
+back any desirable notes. A good way to mount such objects as fine seeds
+is to put them in the hole loosely and then cover them with a piece of
+mica such as will be spoken of presently.
+
+Objects which are to be examined by the light shining through them, for
+example a bee's wing or a butterfly's scales, must be mounted on glass
+slides.
+
+A glass slide three inches by one is taken, on the centre is placed the
+object; over this is laid a thin piece of clear mica three fourths of an
+inch square, and this is attached to the glass by pasting narrow strips
+of tissue paper around the edges of the cover, partly on the cover and
+partly on the slide. Finally the slide is covered with some pretty
+colored paper and labeled.
+
+Two pieces of paper are needed to cover each slide. One for the under
+part is cut about one and one half by three and one half inches, with a
+hole in the centre (round or square). This piece is first pasted on,
+the corners being cut and the edges brought over onto the front. The
+upper piece, which has a hole in the centre similar to that in the lower
+piece, and is cut a trifle larger than the three by one inch slide, is
+next pasted on so that the hole will correspond with the one below. The
+upper piece of paper is now trimmed down to the slide and the label
+attached. Window glass will answer for the slides and you can get any
+glazier to cut up a piece for you into the right-sized slips. Mica can
+be bought at a stove store, in sheets which may be cut up into three
+fourths of an inch squares with a pair of scissors. The mica should be
+as clear as you can get it. You will find it handy to have some tissue
+paper all mucilaged like postage stamps and cut up in strips the right
+size ready to use. The same may be said of the colored paper covers and
+the labels.
+
+The dust may be excluded from the uncovered opaque objects by keeping
+the mounted slides in small groups, held together by elastic bands. This
+will also serve to classify them so that all the insects will be
+together, all the seeds, and so on; and the transparent slides may also
+be treated in the same way. When an elastic band wears out, it is no
+great trouble to replace it.
+
+In working with the Simple microscope there is a fine chance to display
+ingenuity, not only in making the instruments and mounting the objects
+but in discovering new things to look at and in seeing how much can be
+found out about those things which are the most common.
+
+
+
+
+FOOTNOTES:
+
+[A] In these directions "1-1/2 _in._ power" means a lens having
+  a focus of 1-1/2 inches; "1/2 _in._ power" means a lens or combination
+  of lenses having a focus of 1/2 inch; and so on. All the different
+  powers mentioned in the directions may be obtained in the small-sized
+  3-lens, bellows form magnifier, either by using the lenses singly or
+  combined in different ways. The magnifying power of any single lens or
+  simple combination is easily found by dividing 10, by the focus in
+  inches. Thus the magnifying power of a 1/2 _in._ lens is found in this
+  way: 10�1/2 = 10�2/1 20. The lens magnifies therefore 20 diameters
+  _i. e._ makes an object appear twenty times as long and twenty times as
+  broad as it is.
+
+
+
+
+TRANSCRIBER'S NOTES:
+
+
+Text in italics is surrounded with underscores: _italics_.
+
+Inconsistencies in hyphenation have been retained from the original.
+
+Obvious typographical errors have been corrected as follows:
+
+  Page 8: hundreth changed to hundredth
+  Page 11: iustrument changed to instrument
+  Page 15: diferent changed to different
+  Page 17: he changed to the
+  Page 20: wil changed to will
+  Page 44: or changed to of
+  Page 72: staightened changed to straightened
+  Page 86: DIFFRENT changed to DIFFERENT
+  Page 125: fouths changed to fourths
+
+
+
+
+
+End of the Project Gutenberg EBook of Through a Microscope, by 
+Samuel Wells and Mary Treat and Frederick Leroy Sargent
+
+*** END OF THIS PROJECT GUTENBERG EBOOK THROUGH A MICROSCOPE ***
+
+***** This file should be named 38428-8.txt or 38428-8.zip *****
+This and all associated files of various formats will be found in:
+        https://www.gutenberg.org/3/8/4/2/38428/
+
+Produced by Chris Curnow, David E. Brown and the Online
+Distributed Proofreading Team at https://www.pgdp.net (This
+file was produced from images generously made available
+by The Internet Archive)
+
+
+Updated editions will replace the previous one--the old editions
+will be renamed.
+
+Creating the works from public domain print editions means that no
+one owns a United States copyright in these works, so the Foundation
+(and you!) can copy and distribute it in the United States without
+permission and without paying copyright royalties.  Special rules,
+set forth in the General Terms of Use part of this license, apply to
+copying and distributing Project Gutenberg-tm electronic works to
+protect the PROJECT GUTENBERG-tm concept and trademark.  Project
+Gutenberg is a registered trademark, and may not be used if you
+charge for the eBooks, unless you receive specific permission.  If you
+do not charge anything for copies of this eBook, complying with the
+rules is very easy.  You may use this eBook for nearly any purpose
+such as creation of derivative works, reports, performances and
+research.  They may be modified and printed and given away--you may do
+practically ANYTHING with public domain eBooks.  Redistribution is
+subject to the trademark license, especially commercial
+redistribution.
+
+
+
+*** START: FULL LICENSE ***
+
+THE FULL PROJECT GUTENBERG LICENSE
+PLEASE READ THIS BEFORE YOU DISTRIBUTE OR USE THIS WORK
+
+To protect the Project Gutenberg-tm mission of promoting the free
+distribution of electronic works, by using or distributing this work
+(or any other work associated in any way with the phrase "Project
+Gutenberg"), you agree to comply with all the terms of the Full Project
+Gutenberg-tm License (available with this file or online at
+https://gutenberg.org/license).
+
+
+Section 1.  General Terms of Use and Redistributing Project Gutenberg-tm
+electronic works
+
+1.A.  By reading or using any part of this Project Gutenberg-tm
+electronic work, you indicate that you have read, understand, agree to
+and accept all the terms of this license and intellectual property
+(trademark/copyright) agreement.  If you do not agree to abide by all
+the terms of this agreement, you must cease using and return or destroy
+all copies of Project Gutenberg-tm electronic works in your possession.
+If you paid a fee for obtaining a copy of or access to a Project
+Gutenberg-tm electronic work and you do not agree to be bound by the
+terms of this agreement, you may obtain a refund from the person or
+entity to whom you paid the fee as set forth in paragraph 1.E.8.
+
+1.B.  "Project Gutenberg" is a registered trademark.  It may only be
+used on or associated in any way with an electronic work by people who
+agree to be bound by the terms of this agreement.  There are a few
+things that you can do with most Project Gutenberg-tm electronic works
+even without complying with the full terms of this agreement.  See
+paragraph 1.C below.  There are a lot of things you can do with Project
+Gutenberg-tm electronic works if you follow the terms of this agreement
+and help preserve free future access to Project Gutenberg-tm electronic
+works.  See paragraph 1.E below.
+
+1.C.  The Project Gutenberg Literary Archive Foundation ("the Foundation"
+or PGLAF), owns a compilation copyright in the collection of Project
+Gutenberg-tm electronic works.  Nearly all the individual works in the
+collection are in the public domain in the United States.  If an
+individual work is in the public domain in the United States and you are
+located in the United States, we do not claim a right to prevent you from
+copying, distributing, performing, displaying or creating derivative
+works based on the work as long as all references to Project Gutenberg
+are removed.  Of course, we hope that you will support the Project
+Gutenberg-tm mission of promoting free access to electronic works by
+freely sharing Project Gutenberg-tm works in compliance with the terms of
+this agreement for keeping the Project Gutenberg-tm name associated with
+the work.  You can easily comply with the terms of this agreement by
+keeping this work in the same format with its attached full Project
+Gutenberg-tm License when you share it without charge with others.
+
+1.D.  The copyright laws of the place where you are located also govern
+what you can do with this work.  Copyright laws in most countries are in
+a constant state of change.  If you are outside the United States, check
+the laws of your country in addition to the terms of this agreement
+before downloading, copying, displaying, performing, distributing or
+creating derivative works based on this work or any other Project
+Gutenberg-tm work.  The Foundation makes no representations concerning
+the copyright status of any work in any country outside the United
+States.
+
+1.E.  Unless you have removed all references to Project Gutenberg:
+
+1.E.1.  The following sentence, with active links to, or other immediate
+access to, the full Project Gutenberg-tm License must appear prominently
+whenever any copy of a Project Gutenberg-tm work (any work on which the
+phrase "Project Gutenberg" appears, or with which the phrase "Project
+Gutenberg" is associated) is accessed, displayed, performed, viewed,
+copied or distributed:
+
+This eBook is for the use of anyone anywhere at no cost and with
+almost no restrictions whatsoever.  You may copy it, give it away or
+re-use it under the terms of the Project Gutenberg License included
+with this eBook or online at www.gutenberg.org
+
+1.E.2.  If an individual Project Gutenberg-tm electronic work is derived
+from the public domain (does not contain a notice indicating that it is
+posted with permission of the copyright holder), the work can be copied
+and distributed to anyone in the United States without paying any fees
+or charges.  If you are redistributing or providing access to a work
+with the phrase "Project Gutenberg" associated with or appearing on the
+work, you must comply either with the requirements of paragraphs 1.E.1
+through 1.E.7 or obtain permission for the use of the work and the
+Project Gutenberg-tm trademark as set forth in paragraphs 1.E.8 or
+1.E.9.
+
+1.E.3.  If an individual Project Gutenberg-tm electronic work is posted
+with the permission of the copyright holder, your use and distribution
+must comply with both paragraphs 1.E.1 through 1.E.7 and any additional
+terms imposed by the copyright holder.  Additional terms will be linked
+to the Project Gutenberg-tm License for all works posted with the
+permission of the copyright holder found at the beginning of this work.
+
+1.E.4.  Do not unlink or detach or remove the full Project Gutenberg-tm
+License terms from this work, or any files containing a part of this
+work or any other work associated with Project Gutenberg-tm.
+
+1.E.5.  Do not copy, display, perform, distribute or redistribute this
+electronic work, or any part of this electronic work, without
+prominently displaying the sentence set forth in paragraph 1.E.1 with
+active links or immediate access to the full terms of the Project
+Gutenberg-tm License.
+
+1.E.6.  You may convert to and distribute this work in any binary,
+compressed, marked up, nonproprietary or proprietary form, including any
+word processing or hypertext form.  However, if you provide access to or
+distribute copies of a Project Gutenberg-tm work in a format other than
+"Plain Vanilla ASCII" or other format used in the official version
+posted on the official Project Gutenberg-tm web site (www.gutenberg.org),
+you must, at no additional cost, fee or expense to the user, provide a
+copy, a means of exporting a copy, or a means of obtaining a copy upon
+request, of the work in its original "Plain Vanilla ASCII" or other
+form.  Any alternate format must include the full Project Gutenberg-tm
+License as specified in paragraph 1.E.1.
+
+1.E.7.  Do not charge a fee for access to, viewing, displaying,
+performing, copying or distributing any Project Gutenberg-tm works
+unless you comply with paragraph 1.E.8 or 1.E.9.
+
+1.E.8.  You may charge a reasonable fee for copies of or providing
+access to or distributing Project Gutenberg-tm electronic works provided
+that
+
+- You pay a royalty fee of 20% of the gross profits you derive from
+     the use of Project Gutenberg-tm works calculated using the method
+     you already use to calculate your applicable taxes.  The fee is
+     owed to the owner of the Project Gutenberg-tm trademark, but he
+     has agreed to donate royalties under this paragraph to the
+     Project Gutenberg Literary Archive Foundation.  Royalty payments
+     must be paid within 60 days following each date on which you
+     prepare (or are legally required to prepare) your periodic tax
+     returns.  Royalty payments should be clearly marked as such and
+     sent to the Project Gutenberg Literary Archive Foundation at the
+     address specified in Section 4, "Information about donations to
+     the Project Gutenberg Literary Archive Foundation."
+
+- You provide a full refund of any money paid by a user who notifies
+     you in writing (or by e-mail) within 30 days of receipt that s/he
+     does not agree to the terms of the full Project Gutenberg-tm
+     License.  You must require such a user to return or
+     destroy all copies of the works possessed in a physical medium
+     and discontinue all use of and all access to other copies of
+     Project Gutenberg-tm works.
+
+- You provide, in accordance with paragraph 1.F.3, a full refund of any
+     money paid for a work or a replacement copy, if a defect in the
+     electronic work is discovered and reported to you within 90 days
+     of receipt of the work.
+
+- You comply with all other terms of this agreement for free
+     distribution of Project Gutenberg-tm works.
+
+1.E.9.  If you wish to charge a fee or distribute a Project Gutenberg-tm
+electronic work or group of works on different terms than are set
+forth in this agreement, you must obtain permission in writing from
+both the Project Gutenberg Literary Archive Foundation and Michael
+Hart, the owner of the Project Gutenberg-tm trademark.  Contact the
+Foundation as set forth in Section 3 below.
+
+1.F.
+
+1.F.1.  Project Gutenberg volunteers and employees expend considerable
+effort to identify, do copyright research on, transcribe and proofread
+public domain works in creating the Project Gutenberg-tm
+collection.  Despite these efforts, Project Gutenberg-tm electronic
+works, and the medium on which they may be stored, may contain
+"Defects," such as, but not limited to, incomplete, inaccurate or
+corrupt data, transcription errors, a copyright or other intellectual
+property infringement, a defective or damaged disk or other medium, a
+computer virus, or computer codes that damage or cannot be read by
+your equipment.
+
+1.F.2.  LIMITED WARRANTY, DISCLAIMER OF DAMAGES - Except for the "Right
+of Replacement or Refund" described in paragraph 1.F.3, the Project
+Gutenberg Literary Archive Foundation, the owner of the Project
+Gutenberg-tm trademark, and any other party distributing a Project
+Gutenberg-tm electronic work under this agreement, disclaim all
+liability to you for damages, costs and expenses, including legal
+fees.  YOU AGREE THAT YOU HAVE NO REMEDIES FOR NEGLIGENCE, STRICT
+LIABILITY, BREACH OF WARRANTY OR BREACH OF CONTRACT EXCEPT THOSE
+PROVIDED IN PARAGRAPH 1.F.3.  YOU AGREE THAT THE FOUNDATION, THE
+TRADEMARK OWNER, AND ANY DISTRIBUTOR UNDER THIS AGREEMENT WILL NOT BE
+LIABLE TO YOU FOR ACTUAL, DIRECT, INDIRECT, CONSEQUENTIAL, PUNITIVE OR
+INCIDENTAL DAMAGES EVEN IF YOU GIVE NOTICE OF THE POSSIBILITY OF SUCH
+DAMAGE.
+
+1.F.3.  LIMITED RIGHT OF REPLACEMENT OR REFUND - If you discover a
+defect in this electronic work within 90 days of receiving it, you can
+receive a refund of the money (if any) you paid for it by sending a
+written explanation to the person you received the work from.  If you
+received the work on a physical medium, you must return the medium with
+your written explanation.  The person or entity that provided you with
+the defective work may elect to provide a replacement copy in lieu of a
+refund.  If you received the work electronically, the person or entity
+providing it to you may choose to give you a second opportunity to
+receive the work electronically in lieu of a refund.  If the second copy
+is also defective, you may demand a refund in writing without further
+opportunities to fix the problem.
+
+1.F.4.  Except for the limited right of replacement or refund set forth
+in paragraph 1.F.3, this work is provided to you 'AS-IS' WITH NO OTHER
+WARRANTIES OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO
+WARRANTIES OF MERCHANTIBILITY OR FITNESS FOR ANY PURPOSE.
+
+1.F.5.  Some states do not allow disclaimers of certain implied
+warranties or the exclusion or limitation of certain types of damages.
+If any disclaimer or limitation set forth in this agreement violates the
+law of the state applicable to this agreement, the agreement shall be
+interpreted to make the maximum disclaimer or limitation permitted by
+the applicable state law.  The invalidity or unenforceability of any
+provision of this agreement shall not void the remaining provisions.
+
+1.F.6.  INDEMNITY - You agree to indemnify and hold the Foundation, the
+trademark owner, any agent or employee of the Foundation, anyone
+providing copies of Project Gutenberg-tm electronic works in accordance
+with this agreement, and any volunteers associated with the production,
+promotion and distribution of Project Gutenberg-tm electronic works,
+harmless from all liability, costs and expenses, including legal fees,
+that arise directly or indirectly from any of the following which you do
+or cause to occur: (a) distribution of this or any Project Gutenberg-tm
+work, (b) alteration, modification, or additions or deletions to any
+Project Gutenberg-tm work, and (c) any Defect you cause.
+
+
+Section  2.  Information about the Mission of Project Gutenberg-tm
+
+Project Gutenberg-tm is synonymous with the free distribution of
+electronic works in formats readable by the widest variety of computers
+including obsolete, old, middle-aged and new computers.  It exists
+because of the efforts of hundreds of volunteers and donations from
+people in all walks of life.
+
+Volunteers and financial support to provide volunteers with the
+assistance they need are critical to reaching Project Gutenberg-tm's
+goals and ensuring that the Project Gutenberg-tm collection will
+remain freely available for generations to come.  In 2001, the Project
+Gutenberg Literary Archive Foundation was created to provide a secure
+and permanent future for Project Gutenberg-tm and future generations.
+To learn more about the Project Gutenberg Literary Archive Foundation
+and how your efforts and donations can help, see Sections 3 and 4
+and the Foundation web page at https://www.pglaf.org.
+
+
+Section 3.  Information about the Project Gutenberg Literary Archive
+Foundation
+
+The Project Gutenberg Literary Archive Foundation is a non profit
+501(c)(3) educational corporation organized under the laws of the
+state of Mississippi and granted tax exempt status by the Internal
+Revenue Service.  The Foundation's EIN or federal tax identification
+number is 64-6221541.  Its 501(c)(3) letter is posted at
+https://pglaf.org/fundraising.  Contributions to the Project Gutenberg
+Literary Archive Foundation are tax deductible to the full extent
+permitted by U.S. federal laws and your state's laws.
+
+The Foundation's principal office is located at 4557 Melan Dr. S.
+Fairbanks, AK, 99712., but its volunteers and employees are scattered
+throughout numerous locations.  Its business office is located at
+809 North 1500 West, Salt Lake City, UT 84116, (801) 596-1887, email
+business@pglaf.org.  Email contact links and up to date contact
+information can be found at the Foundation's web site and official
+page at https://pglaf.org
+
+For additional contact information:
+     Dr. Gregory B. Newby
+     Chief Executive and Director
+     gbnewby@pglaf.org
+
+
+Section 4.  Information about Donations to the Project Gutenberg
+Literary Archive Foundation
+
+Project Gutenberg-tm depends upon and cannot survive without wide
+spread public support and donations to carry out its mission of
+increasing the number of public domain and licensed works that can be
+freely distributed in machine readable form accessible by the widest
+array of equipment including outdated equipment.  Many small donations
+($1 to $5,000) are particularly important to maintaining tax exempt
+status with the IRS.
+
+The Foundation is committed to complying with the laws regulating
+charities and charitable donations in all 50 states of the United
+States.  Compliance requirements are not uniform and it takes a
+considerable effort, much paperwork and many fees to meet and keep up
+with these requirements.  We do not solicit donations in locations
+where we have not received written confirmation of compliance.  To
+SEND DONATIONS or determine the status of compliance for any
+particular state visit https://pglaf.org
+
+While we cannot and do not solicit contributions from states where we
+have not met the solicitation requirements, we know of no prohibition
+against accepting unsolicited donations from donors in such states who
+approach us with offers to donate.
+
+International donations are gratefully accepted, but we cannot make
+any statements concerning tax treatment of donations received from
+outside the United States.  U.S. laws alone swamp our small staff.
+
+Please check the Project Gutenberg Web pages for current donation
+methods and addresses.  Donations are accepted in a number of other
+ways including including checks, online payments and credit card
+donations.  To donate, please visit: https://pglaf.org/donate
+
+
+Section 5.  General Information About Project Gutenberg-tm electronic
+works.
+
+Professor Michael S. Hart was the originator of the Project Gutenberg-tm
+concept of a library of electronic works that could be freely shared
+with anyone.  For thirty years, he produced and distributed Project
+Gutenberg-tm eBooks with only a loose network of volunteer support.
+
+
+Project Gutenberg-tm eBooks are often created from several printed
+editions, all of which are confirmed as Public Domain in the U.S.
+unless a copyright notice is included.  Thus, we do not necessarily
+keep eBooks in compliance with any particular paper edition.
+
+
+Most people start at our Web site which has the main PG search facility:
+
+     https://www.gutenberg.org
+
+This Web site includes information about Project Gutenberg-tm,
+including how to make donations to the Project Gutenberg Literary
+Archive Foundation, how to help produce our new eBooks, and how to
+subscribe to our email newsletter to hear about new eBooks.
diff --git a/38428-8.zip b/38428-8.zip
new file mode 100644
index 0000000..e3f089d
--- /dev/null
+++ b/38428-8.zip
diff --git a/38428-h.zip b/38428-h.zip
new file mode 100644
index 0000000..fb9af80
--- /dev/null
+++ b/38428-h.zip
diff --git a/38428-h/38428-h.htm b/38428-h/38428-h.htm
new file mode 100644
index 0000000..d6d3b0a
--- /dev/null
+++ b/38428-h/38428-h.htm
@@ -0,0 +1,2594 @@
+<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Strict//EN"
+    "http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd">
+<!-- $Id: header.txt 236 2009-12-07 18:57:00Z vlsimpson $ -->
+
+<html xmlns="http://www.w3.org/1999/xhtml" xml:lang="en" lang="en">
+  <head>
+    <meta http-equiv="Content-Type" content="text/html;charset=iso-8859-1" />
+    <meta http-equiv="Content-Style-Type" content="text/css" />
+    <title>
+      The Project Gutenberg eBook of Through a Microscope, by Samuel Wells, Mary Treat, and Frederick Leroy Sargent.
+    </title>
+    <style type="text/css">
+
+body {margin-left: 10%; margin-right: 10%;}
+
+p {margin-top: .75em; text-align: justify; margin-bottom: .75em;}
+
+hr {width: 33%; margin-top: 2em; margin-bottom: 2em; margin-left: auto; margin-right: auto; clear: both;}
+
+table {margin-left: auto; margin-right: auto;}
+
+a {text-decoration: none;}
+
+p.cap:first-letter { float: left; clear: left; margin: 0 0.1em 0 0; padding:0; line-height: .9em; font-size: 250%;}
+
+.big {font-size: 125%;}
+.huge {font-size: 150%;}
+.giant {font-size: 200%;}
+
+.pagenum {position: absolute; left: 92%; font-size: smaller; text-align: right;}
+
+.center   {text-align: center;}
+
+.smcap    {font-variant: small-caps;}
+
+.caption  {font-weight: bold; text-align: center;}
+
+.figcenter   {margin: auto; text-align: center;}
+
+.figleft {float: left; clear: left; margin-left: 0; margin-bottom: 1em; margin-top: 1em; margin-right: 1em; padding: 0; text-align: center;}
+
+.figright {float: right; clear: right; margin-left: 1em; margin-bottom: 1em; margin-top: 1em; margin-right: 0; padding: 0; text-align: center;}
+
+.footnote         {margin-left: 10%; margin-right: 10%; font-size: 0.9em;}
+
+.footnote .label  {position: absolute; right: 84%; text-align: right;}
+
+.fnanchor {vertical-align: super; font-size: .8em; text-decoration: none;}
+
+
+    </style>
+  </head>
+<body>
+
+
+<pre>
+
+The Project Gutenberg EBook of Through a Microscope, by 
+Samuel Wells and Mary Treat and Frederick Leroy Sargent
+
+This eBook is for the use of anyone anywhere at no cost and with
+almost no restrictions whatsoever.  You may copy it, give it away or
+re-use it under the terms of the Project Gutenberg License included
+with this eBook or online at www.gutenberg.org
+
+
+Title: Through a Microscope
+       Something of the Science Together with many Curious
+              Observations Indoor and Out and Directions for a Home-made
+              Microscope.
+
+Author: Samuel Wells
+        Mary Treat
+        Frederick Leroy Sargent
+
+Release Date: December 28, 2011 [EBook #38428]
+
+Language: English
+
+Character set encoding: ISO-8859-1
+
+*** START OF THIS PROJECT GUTENBERG EBOOK THROUGH A MICROSCOPE ***
+
+
+
+
+Produced by Chris Curnow, David E. Brown and the Online
+Distributed Proofreading Team at https://www.pgdp.net (This
+file was produced from images generously made available
+by The Internet Archive)
+
+
+
+
+
+
+</pre>
+
+
+<div class="figcenter"><img src="images/i_cover.png" alt="" /></div>
+<hr style="width: 65%;" />
+<p><span class="pagenum"><a name="Page_1" id="Page_1">[1]</a></span></p>
+
+<p class="center"><span class="giant">THROUGH A MICROSCOPE</span></p>
+<p>&nbsp;</p>
+<p class="center"><span class="big">SOMETHING OF THE SCIENCE<br/>
+TOGETHER WITH MANY CURIOUS OBSERVATIONS<br/>
+INDOOR AND OUT<br/>
+AND DIRECTIONS FOR A HOME-MADE MICROSCOPE</span></p>
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+<p class="center"><span class="big">BY</span></p>
+
+<p class="center"><span class="huge">SAMUEL WELLS, MARY TREAT AND<br/>
+FREDERICK LEROY SARGENT</span></p>
+
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+<p class="center"><span class="big">CHICAGO</span><br/>
+<span class="huge"><span class="smcap">The Interstate Publishing Company</span></span><br/>
+BOSTON: 30 FRANKLIN STREET</p>
+<p>&nbsp;</p>
+<p>&nbsp;</p>
+<p><span class="pagenum"><a name="Page_2" id="Page_2">[2]</a></span></p>
+
+
+<p class="center"><span class="smcap">Copyright, 1886,<br />
+by<br />
+Interstate Publishing Company.</span></p>
+
+
+
+
+
+<hr style="width: 65%;" />
+<p><span class="pagenum"><a name="Page_3" id="Page_3">[3]</a></span></p>
+<p class="center"><span class="huge">CONTENTS.</span></p>
+
+<table border="0" cellpadding="2" cellspacing="2" summary="table">
+<tr><td align="right"><span class="smcap">Chapter.</span></td><td>&nbsp;</td><td align="right"><span class="smcap">Page.</span></td></tr>
+
+<tr><td align="right">I.</td><td> Through a Microscope</td><td align="right"><a href="#Page_7">7</a></td></tr>
+
+<tr><td align="right">II.</td><td> The Outfit</td><td align="right"><a href="#Page_14">14</a></td></tr>
+
+<tr><td align="right">III.</td><td> The Objects</td><td align="right"><a href="#Page_20">20</a></td></tr>
+
+<tr><td align="right">IV.</td><td> Home Experiments</td><td align="right"><a href="#Page_26">26</a></td></tr>
+
+<tr><td align="right">V.</td><td> Cochituate Water</td><td align="right"><a href="#Page_33">33</a></td></tr>
+
+<tr><td align="right">VI.</td><td> Interesting objects</td><td align="right"><a href="#Page_39">39</a></td></tr>
+
+<tr><td align="right">VII.</td><td> The Brickmaker</td><td align="right"><a href="#Page_46">46</a></td></tr>
+
+<tr><td align="right">VIII.</td><td> The Vorticellas</td><td align="right"><a href="#Page_54">54</a></td></tr>
+
+<tr><td align="right">IX.</td><td> The Utricularia</td><td align="right"><a href="#Page_61">61</a></td></tr>
+
+<tr><td align="right">X.</td><td> Free Swimming Animalcules</td><td align="right"><a href="#Page_70">70</a></td></tr>
+
+<tr><td align="right">XI.</td><td> On the Beach</td><td align="right"><a href="#Page_78">78</a></td></tr>
+
+<tr><td align="right">XII.</td><td> Rizopods</td><td align="right"><a href="#Page_86">86</a></td></tr>
+
+<tr><td align="right">XIII.</td><td> How to See a Dandelion</td><td align="right"><a href="#Page_97">97</a></td></tr>
+
+<tr><td align="right">XIV.</td><td> How to See a Bumble Bee</td><td align="right"><a href="#Page_107">107</a></td></tr>
+
+<tr><td align="right">XV.</td><td> Some Little Things to See</td><td align="right"><a href="#Page_114">114</a></td></tr></table>
+
+
+<p><span class="pagenum"><a name="Page_4" id="Page_4">[4]</a></span></p>
+
+
+
+<hr style="width: 65%;" />
+<p><span class="pagenum"><a name="Page_5" id="Page_5">[5]</a></span></p>
+<p class="center"><span class="huge">PART I</span></p>
+
+<p class="center"><span class="huge">THROUGH A MICROSCOPE</span></p>
+
+<p class="center"><span class="big"><span class="smcap">By Samuel Wells</span></span></p>
+
+<p><span class="pagenum"><a name="Page_6" id="Page_6">[6]</a></span></p>
+
+
+
+<hr style="width: 65%;" />
+<p><span class="pagenum"><a name="Page_7" id="Page_7">[7]</a></span></p>
+<p class="center"><span class="big">THROUGH A MICROSCOPE</span></p>
+<p>&nbsp;</p>
+
+<p class="center"><span class="big">I</span></p>
+
+<p>An object one hundredth of an inch in diameter, or of which it would
+take one hundred placed side by side to make an inch, is about the
+smallest thing that can be easily seen by the unassisted eye. Take a
+piece of card and punch a little hole through it with the point of a
+small needle, hold it towards a lamp or a window, and you will see the
+light through it.</p>
+
+<div class="figcenter"><img src="images/i_008.png" alt="" /></div>
+<p class="caption">FIG. 1.</p>
+
+<p>This hole will be about the size just mentioned,<span class="pagenum"><a name="Page_8" id="Page_8">[8]</a></span> and you will find that
+you can see it best and most distinctly when you hold it at a certain
+distance from your eye; and this distance will not be far from ten
+inches, unless you are near-sighted. Now bring it towards your eye and
+you will find it becomes blurred and indistinct. You will see by this
+experiment that you cannot see things distinctly when held too close to
+your eye, or in other words, that you cannot bring your eye nearer to an
+object than eight or ten inches and see it well at the same time.</p>
+
+<p>You could see things much smaller than one hundredth of an inch if you
+could get your eye close enough to them. How can that be done? By a
+microscope? yes, but what is that? This name comes from two Greek words
+that mean "to see small things;" and a microscope is an instrument by
+which your eye can get very close to what you want to see.</p>
+
+<p>To understand this, take out one of your eyes and look at it with the
+other one. You see that it is a little round camera; most boys have seen
+a camera and some boys can make one. The simplest way to do that is to
+take a box, say a cigar box (empty, of course); pull off the cover and
+fasten in the place of<span class="pagenum"><a name="Page_9" id="Page_9">[9]</a></span> it a piece of ground glass if you have one: if
+not a piece of white letter paper, oiled, will do; bore a hole in the
+middle of the bottom with a small gimlet and your camera is done. Point
+the bottom with the hole in it out of the window, and throw a piece of
+cloth over your head and over the box, as the photographers do, to shut
+out the side light, but mind and not cover up the hole; look at the
+ground glass (or oiled paper) and you will see things upside down. (Fig.
+1.) But what has it to do with my eye? you say. Why, your eye is just
+like it, only round, as in fig. 2. And if you hold a doll or anything
+else about ten inches in front of the eye you have taken out and look at
+the inside of it (the eye, not the doll) just as you look at the ground
+glass of your box camera, you will see the doll upside down on the back
+of the eye.</p>
+
+<p>But how, do you say, can I see things right side up when they are upside
+down in my eye? This is a very good conundrum and it will keep a long
+time, till you are about seventy years old and have spare time to sit
+down and think about it.</p>
+
+<p>Now you see how your eye is a camera; the pupil<span class="pagenum"><a name="Page_10" id="Page_10">[10]</a></span> is the hole and the
+back of the eye, called the retina, is the ground glass.</p>
+
+<p>But you will find that the camera you have just made does not show
+things distinctly and beautifully as the photographer's camera does; how
+can they be distinct in the eye then?</p>
+
+<p>Because in the photographer's camera, in the hole is a lens, which is a
+piece of glass, shaped like a sun glass; and so in your eye just behind
+the pupil is a lens, not made of glass, but still almost as transparent
+as if it were. In order to see what effect this lens has, take your box
+camera, make the hole larger and put a lens in it; one of your magic
+lantern lenses will do; and if the lens has the right focus you will see
+the images sharp and distinct on your ground glass. The focus probably
+will not be just right, so make a paper tube, into which fasten your
+lens and slide the tube in and out of the hole until you find the right
+focus.</p>
+
+<p>When you have got that right so that you see a boy on the sidewalk
+upside down and see his teeth when he laughs, put some small object, the
+little doll will do, about three feet in front of your lens, and you
+will find the image of it is blurred and indistinct, and that<span class="pagenum"><a name="Page_11" id="Page_11">[11]</a></span> you must
+pull your tube out to get the focus on the doll; or if you had another
+lens of just the right shape to hold in front of your camera, you would
+with that get the focus on the doll.</p>
+
+<div class="figcenter"><img src="images/i_012.png" alt="" /></div>
+<p class="caption">FIG. 2.</p>
+
+<p>Thus you can see how it is with your eye, and why you cannot see things
+distinctly held close to it. The lens in the eye can change its shape a
+little, so that it will focus objects a mile off, or ten inches off, but
+it cannot be pushed in and out like the tube in your camera. You can do
+this, however, if you take another lens and hold it outside your eye and
+let the light go through that first before it comes to the lens in your
+eye, and in this way you can get a focus in your retina, and the outside
+lens thus forms a part of that optical instrument called your eye. Does
+your grandma know that her spectacles are a part of the cameras that she
+calls her eyes?</p>
+
+<p><span class="pagenum"><a name="Page_12" id="Page_12">[12]</a></span>How is it that a lens bends (refracts is the big word for it) the rays
+of light? You will learn by and by. You can see that it does so by a few
+experiments with your sun glass or any such lens. Hold it between the
+sun and a piece of white paper until the white spot in the centre is as
+small as you can make it. You will see that the rest of the lens casts a
+shadow although it is all glass; this is because the rays of sunlight
+that fall on the lens are all bent towards the centre, and so you have a
+small white spot on which is concentrated the light and the heat, and
+before you have found out how it is all done, your paper takes fire and
+the experiment ends in smoke.</p>
+
+<p>Take another piece of paper, and when the white spot is at its smallest,
+measure the distance between the lens and the paper, and you will have
+the focal distance of the lens.</p>
+
+<p>You have now found out how to get your eye close to an object and see
+something that is very small; this is usually called magnifying it,
+because it seems to make it look large. Suppose you have a lens that
+will let you see a flea through it held just one inch from it, this lens
+is now an addition to your eye, as<span class="pagenum"><a name="Page_13" id="Page_13">[13]</a></span> we measure from the lens. If you had
+another flea held ten inches off, so big that it would just be hidden by
+the little flea, the one farthest off would be ten times as large as the
+near one. (Fig. 3.) In this case it is said that the lens having a focal
+length of one inch magnifies ten times, or has a power of ten.</p>
+
+<div class="figcenter"><img src="images/i_014.png" alt="" /></div>
+<p class="caption">FIG. 3.</p>
+
+<p>The shortest usual distance of objects seen distinctly being taken as
+ten inches, microscopists have agreed to consider that as the standard
+of measurement, and objects seen through a lens are considered magnified
+to the size they would have if projected ten inches off, like our little
+flea.</p>
+
+<p>&nbsp;</p>
+<p><span class="pagenum"><a name="Page_14" id="Page_14">[14]</a></span></p>
+<p class="center"><span class="big">II.&mdash;THE OUTFIT.</span></p>
+
+<div class="figleft"><img src="images/i_015.png" alt="FIG. 1"/><p class="center"><b>FIG. 1</b></p></div>
+
+<p>Now that we have got hold of the idea that the eye is an optical
+instrument, and that to increase its capacity for seeing small things we
+add to it other optical contrivances, making with it one instrument
+composed of several parts, let us look at such additions more
+particularly.</p>
+
+
+
+<div class="figright"><img src="images/i_016a.png" alt="FIG. 2"/><p class="center"><b>FIG. 2</b></p></div>
+
+<div class="figleft"><img src="images/i_016b.png" alt="FIG. 3.&mdash;OPEN AND CLOSED."/><p class="center"><b>FIG. 3.&mdash;OPEN AND CLOSED.</b></p></div>
+
+<p>One pleasant September afternoon, three gentlemen were strolling along
+the banks of the Wissahickon, in Philadelphia's beautiful park, and
+stopping now and then to examine some little flower or insect with
+pocket lenses, when they discovered that some little boys out for a
+holiday were watching their proceedings with a curious<span class="pagenum"><a name="Page_15" id="Page_15">[15]</a></span> and mystified
+interest. One of the gentlemen had a pocket microscope with three lenses
+of different sizes, as in Fig. 1. Calling the boys up to him he showed
+them a little flower magnified. They had never dreamed of such a sight,
+and their wonder and amazement were as great as if they suddenly beheld
+a new world. You will be as surprised as they were when you take your
+first peep, but you must learn to see such things <i>by yourselves</i>. The
+first thing you need is a simple microscope, that is, one with a single
+lens, small enough to be carried in the pocket. There are different
+forms and sizes of such microscopes, varying in quality and price. Those
+like the one just mentioned are made with from one to<span class="pagenum"><a name="Page_16" id="Page_16">[16]</a></span> four lenses each,
+and are perhaps the most generally useful. Then there is the Coddington
+lens (Fig. 2) which is still more compact; and it is sometimes made in
+the form of Fig. 3. It has a very short focus, and is not, therefore,
+very easy to use. Achromatic doublets and triplets are made of two or<span class="pagenum"><a name="Page_17" id="Page_17">[17]</a></span>
+more lenses cemented together and mounted in the same style as the
+Coddington lens; they are very much better than the Coddington, but are
+more expensive.</p>
+
+<div class="figright"><img src="images/i_017a.png" alt="FIG. 4"/><p class="center"><b>FIG. 4</b></p></div>
+
+<div class="figleft"><img src="images/i_017b.png" alt="FIG. 5"/><p class="center"><b>FIG. 5</b></p></div>
+
+<p>There are several devices for mounting these simple microscopes on
+stands so that they can be kept steady and the objects to be examined
+placed behind them. One of these is illustrated in Fig. 4. An ingenious
+boy with a block of wood for a base, some stout wire and corks, can make
+one almost as useful, though not so handsome.</p>
+
+<div class="figright"><img src="images/i_018.png" alt="FIG. 6"/><p class="center"><b>FIG. 6</b></p></div>
+
+<p>A more elaborate form is shown in Fig. 5. It has a glass stage to hold
+transparent objects, and a brass one for opaque<span class="pagenum"><a name="Page_18" id="Page_18">[18]</a></span> objects, and a mirror
+below to reflect light up through transparent objects.</p>
+
+<p>It is much better to use a good simple microscope than a poor and cheap
+compound one; be sure and remember this and not be enticed to buy such
+an one by any representations as to its great magnifying power.</p>
+
+
+
+<p>A compound microscope is one with a tube from four to ten inches long,
+an arrangement for holding the object to be looked at, and a mirror
+below to reflect light upon or through it. The lenses at the end next
+the object are small, and are set in a small brass tube, which is called
+an "objective." It screws into the large tube. The lenses at the end of
+the large tube next the eye are set in a tube, called the eye-piece,
+which slides in and out of the large tube. Different objectives contain
+lenses of different sizes according to the magnifying power desired, and
+they are named "two inch," "one inch," "half inch," and so on down to
+"one seventy-fifth." Eye-pieces are sometimes named "A," "B," "C," but
+more properly "two inch," and so on down to "one eighth." There is a
+very great variety in the forms of compound microscopes, from the very
+simple up to the very elaborate, and<span class="pagenum"><a name="Page_19" id="Page_19">[19]</a></span> the prices vary accordingly. A
+simple but useful form is given in Fig. 6.</p>
+
+<div class="figleft"><img src="images/i_020.png" alt="CATCHING ANIMALCULA WITH A PIPETTE."/><p class="center"><b>CATCHING ANIMALCULA WITH A PIPETTE.</b></p></div>
+
+<p>A great deal of money can be expended on a microscope and the various
+instruments made to use with it and which are called "accessory
+apparatus"; but it is best not to buy these instruments until you know
+just what you want, and not to spend much money at first except under
+the advice of a "microscopist."</p>
+
+<p>Some simple things, however, you will need at once, such as a few slips
+of glass three inches long and one inch wide, called "glass slides,"
+some pieces of very thin glass, called "cover glass," a pair of
+tweezers, some needles fastened into pen-holders for handles, and a few
+glass tubes commonly called "pipettes," or "dipping tubes." These can be
+readily bought, and some of them easily made.</p>
+
+
+
+<p>&nbsp;</p>
+<p><span class="pagenum"><a name="Page_20" id="Page_20">[20]</a></span></p>
+<p class="center"><span class="big">III.&mdash;OBJECTS.</span></p>
+
+<p>As soon as you have a microscope you will begin to look at everything
+and anything: dust, crumbs of bread, flour, starch, mosquitoes, flies,
+and moth millers in their season; flowers and leaves, cotton, wool, and
+silk. But this scattering kind of observation will soon weary you. In
+order to get the greatest pleasure and best results from your work, you
+must proceed with some system.</p>
+
+<div class="figleft"><img src="images/i_021.png" alt="BULL'S EYE LENS."/><p class="center"><b>BULL'S EYE LENS.</b></p></div>
+
+<div class="figright"><img src="images/i_022a.png" alt="MAGNIFIED 50 DIAMETERS."/><p class="center"><b>MAGNIFIED 50 DIAMETERS.</b></p></div>
+
+<p>There are so many objects visible only through the microscope that life
+is not long enough for you to see them all, much less to study them.
+Some microscopists devote the time they have for such studies to the
+observation of single classes of objects; the physician<span class="pagenum"><a name="Page_21" id="Page_21">[21]</a></span> observes the
+various parts of the animal structure, and calls his work "histology;"
+the botanist examines the vegetable kingdom; the entomologist, insects;
+but in all these departments there are numerous subdivisions. As a guide
+to your work, you will find some book on the microscope very useful; the
+best one is <i>The Microscope and its Revelations</i>, by Dr. William B.
+Carpenter.</p>
+
+<div class="figright"><img src="images/i_022b.png" alt="FLY'S EYE&mdash;5 DIAMETERS."/><p class="center"><b>FLY'S EYE&mdash;5 DIAMETERS.</b></p></div>
+
+<p>Objects through which you can see light are called "transparent," and
+are the easiest to look at with the microscope, because you can lay them
+on a glass slide and throw light up through them with your mirror. Thick
+objects through which light cannot pass are called "opaque," and are
+more difficult to examine, and can only be seen with low powers and a
+bright light.</p>
+
+<p><span class="pagenum"><a name="Page_22" id="Page_22">[22]</a></span>In order to see such objects in the evening, you will need a "bull's
+eye" lens mounted on a stand, which you can place beside your microscope
+and between the lamp and the stage, condensing the light of the lamp on
+the object. (<i>Fig.</i> 1.) There are other methods of illuminating opaque
+objects, but they are expensive and difficult to manage, yet by and by
+if you persevere in this delightful occupation you will learn what they
+are.</p>
+
+<div class="figcenter"><img src="images/i_023.png" alt="MAGNIFIED 200 DIAMETERS."/><p class="center"><b>MAGNIFIED 200 DIAMETERS.</b></p></div>
+
+<p>Some persons will expect you to show them a fly as big as a horse; but
+you will soon be able to prove to<span class="pagenum"><a name="Page_23" id="Page_23">[23]</a></span> them that you know more about the
+matter than they do. With a large hand-lens, you can see a whole fly at
+once and magnify it two or three times; but when you put it on the stage
+of your compound microscope and try to magnify it still more, you will
+find that you can only see a part of it at a time, and the higher the
+power you use, the less can you see; in<span class="pagenum"><a name="Page_24" id="Page_24">[24]</a></span> other words, the more you
+magnify an object, the smaller is the field of view.</p>
+
+<div class="figleft"><img src="images/i_024.png" alt="HEAD OF MOSQUITO. MAGNIFIED 15 DIAMETERS."/><p class="center"><b>HEAD OF MOSQUITO. MAGNIFIED 15 DIAMETERS.</b></p></div>
+
+
+
+<p>An inch-objective will show the head of an housefly, which in a bright
+light is a very beautiful object. No picture can equal the delicacy of
+the color of the eyes of a live fly.</p>
+
+<div class="figright"><img src="images/i_025.png" alt="SECTION OF WOOD. MAGNIFIED 50 DIAMETERS."/><p class="center"><b>SECTION OF WOOD.<br/> MAGNIFIED 50 DIAMETERS.</b></p></div>
+
+<p>After a little practise you will be able to separate the different parts
+of insects and look at them with higher powers. The moth fly will soon
+be on the wing, and your aunt will not call you cruel if you kill and
+cut up large numbers of them. Put a little of the dust that comes off
+from the wing of a moth on a glass slide, look at it with a high power,
+and you will find that each particle<span class="pagenum"><a name="Page_25" id="Page_25">[25]</a></span> of dust is a pretty leaf-like
+scale. You have seen in summer the dust on the wings of butterflies;
+remember this, and look at this butterfly dust with your microscope.</p>
+
+
+
+<p>Flowers and leaves you can always easily obtain; but in looking at them
+you must remember what has already been said about "transparent" and
+"opaque" objects.</p>
+
+<p>Thin slices or sections of stems, leaves, and portions of flowers, can
+be made with a sharp knife, and examined as transparent objects, so that
+thus you can observe the internal or cellular structure of the vegetable
+kingdom.</p>
+
+<p>&nbsp;</p>
+<p><span class="pagenum"><a name="Page_26" id="Page_26">[26]</a></span></p>
+
+<p class="center"><span class="big">IV.&mdash;HOME EXPERIMENTS.</span></p>
+
+<div class="figleft"><img src="images/i_027.png" alt="FIG. 1."/><p class="center"><b>FIG. 1.</b></p></div>
+
+<p>During the cold weather it is not pleasant to make excursions into the
+country and search for objects for the microscope; so you will look
+about and see what you can find at home; and if you live in Boston,
+Cochituate water will invite your inspection. The best way to get at the
+minute objects in this or any water that is supplied through pipes, is
+to make a bag of cotton cloth, not too fine, well washed in water
+without soap, about a foot long, large enough at the top to slip over a
+faucet that has a screw on it (like the common kitchen faucet adapted
+for a filter), so that it can be tied with a string, and small enough at
+the bottom to be tied on to the neck of a small bottle such as is used
+for<span class="pagenum"><a name="Page_27" id="Page_27">[27]</a></span> hom&oelig;opathic pills. This bag should taper gradually in size from
+the top to the bottom. (<i>Fig.</i> 1.)</p>
+
+
+
+<p>If there is a strong head of water where your faucet is, you must reduce
+the pressure by opening other faucets on the same floor, such as those
+in the laundry, otherwise many of the small creatures will be crushed in
+the interstices of the bag. Now let the<span class="pagenum"><a name="Page_28" id="Page_28">[28]</a></span> water run. The bag will swell
+out and the water ooze through its sides, and all objects too small to
+pass through it will fall down and settle in the little bottle at the
+bottom. When you see that there is a considerable amount of sediment in
+the bottle, shut off the water and gently squeeze the bag between your
+thumb and forefinger, beginning at the top and moving your hand down
+towards the bottle. This movement will cause much of the sediment that
+has adhered to the sides of the bag to fall down. Now untie your bottle
+and set it aside and let the water run through the bag to clean it. If
+you have a filter attached to your kitchen faucet you can get a very<span class="pagenum"><a name="Page_29" id="Page_29">[29]</a></span>
+good idea of the solid contents of the water by unscrewing it, or
+turning it over if it is made so as to reverse, and letting the sediment
+that has collected on it drip into a tumbler, but the bag gives much
+better results, as many of the delicate forms that live in the water are
+crushed to death on the filter.</p>
+
+<div class="figcenter"><img src="images/i_028.png" alt="FIG. 2. CYCLOPS QUADRICORNIS. MAGNIFIED 20 DIAMETERS."/><p class="center"><b>FIG. 2. CYCLOPS QUADRICORNIS. MAGNIFIED 20 DIAMETERS.</b></p></div>
+
+<p>Having got the sediment in either a tumbler or a bottle, you must make
+your first observation on it with the naked eye by holding it up to the
+light and looking through it. You will find it of a brown color, because
+a large part of it consists of particles of earth and decayed vegetable
+matter, but you will presently see many little white specks moving about
+with a jumping or hopping movement. These are commonly called
+"water-fleas," on account of their peculiar movements, but the name is
+misleading, as they belong to the crustacea (animals having a shell or
+crust like the lobster), and not to the insects.</p>
+
+<div class="figcenter"><img src="images/i_029.png" alt="FIG. 3. CANTHOCAMPTUS MINUTUS. 40 DIAMETERS."/><p class="center"><b>FIG. 3. CANTHOCAMPTUS MINUTUS. 40 DIAMETERS.</b></p></div>
+
+<p><span class="pagenum"><a name="Page_30" id="Page_30">[30]</a></span>They are found abundantly in ponds and ditches, and in salt water.
+Sometimes they are so abundant in drinking water that has not been
+filtered, as to alarm a timid person, but you will find them just as
+good to eat raw as they are cooked. The most common of these little
+creatures is the <i>Cyclops Quadricornis</i>, so called because he has one
+eye and four horns. (<i>Fig.</i> 2.)</p>
+<div class="figright"><img src="images/i_030.png" alt="FIG. 4. CHYDORUS SPH&OElig;RICUS. 50 DIAMETERS."/><p class="center"><b>FIG. 4. CHYDORUS SPH&OElig;RICUS.<br/> 50 DIAMETERS.</b></p></div>
+
+<p>This picture represents a female, and she carries her eggs in the two
+little black bags that you see fastened on each side of the abdomen. You
+will find it very interesting by and by to watch the eggs hatch and see
+the little cyclops hop away. When young they do not look much like their
+parents; they are rounder and their legs are more prominent. The female
+cyclops (the male is comparatively rare) is the most common creature in
+Cochituate water, and as it is constantly eating, it helps to purify the
+water, and, in its turn, is eaten by the fishes.</p>
+
+<p>In swimming it contracts its four horns and its fringed feet with a
+quick movement that throws it forward through the water with a leap.</p>
+
+<p>Its one eye is of a brilliant red, and is a beautiful<span class="pagenum"><a name="Page_31" id="Page_31">[31]</a></span> object under the
+microscope. The shell also is sometimes beautifully colored, and is
+often transparent, so that the internal organs are plainly visible
+through it.</p>
+
+<p>Another of the family of <i>Cyclopid�</i> is the <i>Canthocamptus minutus</i>
+(<i>fig.</i> 3), which you see is longer and more tapering in its form than
+the <i>Cyclops Quadricornis</i>. It is also very common and very active.</p>
+
+<p><i>Chydorus Sph&oelig;ricus</i> (<i>fig.</i> 4) is a very pretty round form
+interesting to study when transparent.</p>
+
+<p>All these and some others with rather hard names are in that division of
+the <i>Crustacea</i> called <i>Entomostraca</i>, meaning shelled creatures whose
+shells are cut and do not cover them all round. On this principle, an
+oyster on the half-shell might be called an <i>Entomostracan</i>.</p>
+
+<div class="figcenter"><img src="images/i_032.png" alt="FIG. 5."/><p class="center"><b>FIG. 5.</b></p></div>
+
+<p>Now to catch these lively fellows, you must take a dipping tube and be
+patient, and when you have got one in the tube, carefully drop it on the
+bottom of the "live-box" (<i>fig.</i> 5), and put on the cover. Examine<span class="pagenum"><a name="Page_32" id="Page_32">[32]</a></span> it
+first with the lowest power you have. By careful management of the cover
+you can catch it between the top and bottom without breaking the shell,
+and in this prison you can study it at leisure.</p>
+
+<p>&nbsp;</p>
+<p><span class="pagenum"><a name="Page_33" id="Page_33">[33]</a></span></p>
+<p class="center"><span class="big">V.&mdash;COCHITUATE WATER.</span></p>
+
+<p>You have read or been told that if you look at a drop of water through a
+microscope you will find it full of animalcul�, and showmen will
+sometimes exhibit water containing <i>entomostraca</i> hopping about, and
+will try to persuade you that all water looks in the same way.</p>
+
+<div class="figleft"><img src="images/i_034.png" alt="ROTIFER VULGARIS."/><p class="center"><b>ROTIFER<br/> VULGARIS.</b></p></div>
+
+<div class="figright"><img src="images/i_035a.png" alt="CARAPACE OF ANUR&AElig; STIPITATA."/><p class="center"><b>CARAPACE OF<br/> ANUR&AElig;<br/> STIPITATA.</b></p></div>
+
+<div class="figright"><img src="images/i_036.png" alt="DINOBRYON TORTULARIA."/><p class="center"><b>DINOBRYON<br/> TORTULARIA.</b></p></div>
+
+<p>But this is a common mistake, as you will soon find out for yourselves.
+Water such as is commonly used for drinking purposes, whether it comes
+from a well, spring, river, or pond, contains but little animal or
+vegetable life in proportion to its quantity; you may place drop after
+drop under the microscope without finding anything visible, and you can
+only tell what is in it by filtering a great deal of it. Water standing
+in ditches or pools for a long time, becomes full of growth of<span class="pagenum"><a name="Page_34" id="Page_34">[34]</a></span> various
+kinds, and is then so discolored and slimy that no one would think of
+drinking it.</p>
+
+<div class="figleft"><img src="images/i_035b.png" alt="FLOSCULARIA ORNATA."/><p class="center"><b>FLOSCULARIA<br/> ORNATA.</b></p></div>
+
+<p>Let us return to the little bottle which you filled with Cochituate
+filterings last month. Take a little from the bottom with your
+dipping-tube; put it in the live box and examine it with a half-inch
+objective. You will see many forms that are strange to you, and we will
+suppose that the first is that of one of the rotifers. These little
+creatures are called by this name because of two Latin words meaning
+wheel-carriers, for on their heads they have an arrangement which looks
+like a wheel, sometimes in rapid motion.</p>
+
+<p>The most common kind is called <i>Rotifer vulgaris</i> (<i>fig.</i> 1), and is a
+very interesting and elastic being.<span class="pagenum"><a name="Page_35" id="Page_35">[35]</a></span> Sometimes he is gloomy and draws
+himself in so that he looks like a ball; then he will stretch out full
+length, and opening his wheel, shoot through the water with great speed.
+Again he will attach his tail to some fixed object, and by the aid of
+his wheel draw a rapid current of water through his mouth; it is thus
+that you can best observe him, and by and by you will discover that the
+apparent wheel is only a result of the rapid sweeping movement of the
+long hairs or cilia which fringe the opening in the top of the head.
+Through this opening the water passes, the rotifer gathers his food from
+the current, and the food passes into the mastax, where it is ground by
+the masticating apparatus, which is easily seen in motion.</p>
+
+<div class="figright"><img src="images/i_038.png" alt="VORTICELLA NEBULIFERA."/><p class="center"><b>VORTICELLA NEBULIFERA.</b></p></div>
+
+<p>There are several different rotifers found in Cochituate water; among
+them the most common is the <i>Anur� Stipitata</i>. (<i>Fig.</i> 2.) It is like a
+turtle,<span class="pagenum"><a name="Page_36" id="Page_36">[36]</a></span> with a shell, or carapace, beautifully ornamented. You will see
+plenty of these empty shells, and sometimes you will find one inhabited,
+when you will see that the creature has a bright red eye, and several
+bundles of cilia, in front of the projecting spires.</p>
+
+<p>One of the families of the rotifers is called <i>Floscularia</i>, because it
+resembles a flower; it is attached at the base to small plants, or alg�,
+and occupies a sheath so transparent that it is hardly visible. One
+species is occasionally found in the Cochituate, the <i>Floscularia
+ornata</i>. (<i>Fig.</i> 3.) It is a beautiful object, with its elongated
+radiating cilia, which remain quiet, and do not vibrate. The specimen
+figured has three eggs attached to its stem.</p>
+
+
+
+<p>You will find other rotifers in the Cochituate, some formed like vases,
+others with long spires, but all graceful and beautiful. The <i>Dinobryon
+Tortularia</i> is sometimes very common in this water.</p>
+
+<p>In October, 1881, when the taste of the water was very bad, the
+<i>Dinobryon</i> was very abundant, though we do not know that it had
+anything to do with the bad taste. You will see by the figure, that it
+is like a<span class="pagenum"><a name="Page_37" id="Page_37">[37]</a></span> tree, with an individual of the family at the end of every
+branch. Each one has its own organs of existence, although attached to
+its brothers by its stem. Each has a bright red eye, and a long slender
+whip, called a <i>flagellum</i>, with which it lashes the water, and when all
+the <i>flagell�</i> are in motion, the whole tree swims about. The
+individuals are very small indeed, and it will take your best objective
+to show the <i>flagellum</i>.</p>
+
+
+
+<p>Another tree-like group is that of the <i>Vorticella</i>, of which you will
+sometimes find in the Cochituate, the species <i>Vorticella nebulifera</i>.
+Each animal is at the top of a stem, and this stem has the peculiar
+property of being able to coil up and draw its head down close to the
+bottom. This appears to be a defensive movement, for whenever a big ugly
+creature comes by, down go the whole family so quickly<span class="pagenum"><a name="Page_38" id="Page_38">[38]</a></span> that your eye
+cannot follow the movement. Sometimes they will all bob down when you
+tap the stage of the microscope so as to jar them. At a certain period
+of its life the animal suddenly leaves its stem, and goes swimming about
+with great speed.</p>
+
+<p>&nbsp;</p>
+<p><span class="pagenum"><a name="Page_39" id="Page_39">[39]</a></span></p>
+<p class="center"><span class="big">VI.&mdash;INTERESTING OBJECTS.</span></p>
+
+
+<div class="figright"><img src="images/i_040.png" alt="STEPHANODISCUS NIAGAR&AElig;."/><p class="center"><b>STEPHANODISCUS<br/> NIAGAR&AElig;</b></p></div>
+
+<p>The most beautiful of the small <i>alg�</i> or water plants are the
+<i>Diatomace�</i> and the <i>Desmidiace�</i>, sometimes called for brevity diatoms
+and desmids. They are remarkable for the geometrical character of their
+forms, consisting of circles, triangles and polygons of infinite
+variety. They are very small, and cannot be satisfactorily seen with an
+objective of less power than a four tenths. The diatoms are found
+everywhere in both fresh and salt water, but the desmids live only in
+fresh water. One of the most common diatoms in Cochituate water is the
+<i>Stephanodiscus Niagar�</i>. (<i>Fig.</i> 1.) It is in shape like a pill box,
+and its sides, which would be called its top and bottom if it were a
+pill box, are beautifully ornamented with dots in radiating lines with a
+ring of spines near the edge. This circle<span class="pagenum"><a name="Page_40" id="Page_40">[40]</a></span> of spines or thorns explains
+its name, <i>Stephanodiscus</i>, from the proto-martyr, Saint Stephen. The
+name <i>Niagar�</i> is from Niagara River, where it was found. Like all
+diatoms, it contains when alive a yellowish brown matter with small
+globules of oil, which is called <i>endochrome</i>. The box or shell, called
+<i>pustule</i>, is of silex or quartz, and is therefore almost
+indestructible; and when the diatom dies, sinks to the bottom of the
+water. In this way beds of shells of diatoms are sometimes formed of
+considerable thickness.<span class="pagenum"><a name="Page_41" id="Page_41">[41]</a></span></p>
+
+
+
+<div class="figleft"><img src="images/i_041a.png" alt="ASTERIONELLA BLEAKLEYII."/><p class="center"><b>ASTERIONELLA<br/> BLEAKLEYII.</b></p></div>
+
+<div class="figright"><img src="images/i_041b.png" alt="TABELLARIA FENESTRATA."/><p class="center"><b>TABELLARIA<br/> FENESTRATA.</b></p></div>
+
+
+<p><span class="pagenum"><a name="Page_42" id="Page_42">[42]</a></span>Under the city of Richmond, Va., there is such a deposit, varying from
+ten to twenty feet in depth, and extending for many miles. Some of the
+diatoms, especially those shaped like a boat, called <i>Navicula</i>, have a
+peculiar motion which at one time led observers to think them animals.
+No one<span class="pagenum"><a name="Page_43" id="Page_43">[43]</a></span> knows how this motion is produced, and if you can find this
+out, you will make a very important discovery. The most common diatom in
+Cochituate water is <i>Asterionella Bleakleyii</i>. It resembles a star with
+rays, or the hub and spokes of a wheel. (<i>Fig.</i> 2.) This diatom is often
+found in abundance in the water supplies of cities. It never forms a
+complete circle, but grows into spirals or whorls which easily break up.</p>
+
+<div class="figcenter"><img src="images/i_042.png" alt="SPONGILLA FLUVIATILIS."/><p class="center"><b>SPONGILLA FLUVIATILIS.</b></p></div>
+
+<div class="figright"><img src="images/i_044.png" alt="DESMIDIUM SWARTZII. FRONT AND SIDE VIEW."/><p class="center"><b>DESMIDIUM SWARTZII. FRONT AND SIDE VIEW.</b></p></div>
+
+<p>Another diatom common in Cochituate is <i>Tabellaria Fenestrata</i>, which
+grows in ribbon-like forms. (<i>Fig.</i> 3.) The desmids resemble the diatoms
+in the geometrical character of their forms, but they have no shell of
+silex, and are therefore easily destroyed. They are readily
+distinguished at sight by the beautiful green color of the contained
+matter. In many of them there is a curious circulation of small
+particles, especially in the ends of those of a crescent or new-moon
+shape. This circulation can only be seen with a high<span class="pagenum"><a name="Page_44" id="Page_44">[44]</a></span> power. Desmids are
+easily found in ponds and ditches; and there are several species in
+Cochituate. Among them is <i>Desmidium Swartzii</i> (<i>fig.</i> 4), and
+<i>Closterium moniliferum</i>. (<i>Fig.</i> 5.) Their beauty depends so much on
+color that they do not appear to advantage in the figures. You will find
+in examining the filterings of Cochituate water, many objects which have
+not been described in these papers, and among them many fragments of
+green filaments of the small plants belonging to the <i>conferv�</i> and the
+<i>oscillatori�</i>; sometimes you will find small round opaque forms of
+brown or green color, which are probably spores of plants of a larger
+growth; sometimes you will see the pollen of pine-trees which has fallen
+into the water and looks like three small balls fastened together;
+sometimes, though rarely, you may find one of those curious little
+creatures called water bears, or <i>tardigrada</i>; and you may be fortunate
+enough to catch a water spider.</p>
+
+<div class="figleft"><img src="images/i_045.png" alt="CLOSTERIUM MONILIFERUM."/><p class="center"><b>CLOSTERIUM MONILIFERUM.</b></p></div>
+
+
+<p>But you will often see the <i>spicul�</i> of the sponge, called <i>Spongilla
+fluviatilis</i>. They look like pins of<span class="pagenum"><a name="Page_45" id="Page_45">[45]</a></span> glass, blunt at one end and
+pointed at the other, and are sometimes very abundant. You may have
+heard that this sponge has been considered the source of the
+occasionally bad taste and smell of Cochituate water. When it is alive,
+it is not disagreeable, but when it decays it imparts to the water a
+very unpleasant taste and odor. It certainly is one cause of the bad
+quality of the water, but whether it is entitled to the sole credit is
+still open to question.</p>
+
+<p>You can see what it looks like in <i>fig.</i> 6. When alive, it is of a
+light-green color, but when decayed it becomes brown. It is full of the
+<i>spicul�</i> above described, which serve to stiffen it, but it easily
+crumbles and scatters them through the water.</p>
+
+<p>Though the microscope shows us many beautiful and interesting objects,
+yet in the present state of our knowledge we cannot ascertain by its use
+whether the water we examine is harmless or injurious.</p>
+
+<p>&nbsp;</p>
+<p><span class="pagenum"><a name="Page_46" id="Page_46">[46]</a></span></p>
+<p class="center"><span class="big">VII.&mdash;THE BRICKMAKER.</span></p>
+
+<p>The microscope reveals so many strange odd-looking water creatures and
+plants that we can easily imagine ourselves transported to some new
+world. Look at this field of view as seen through the microscope. In the
+centre stands a brickmaker. He is a queer little animal, and so small
+that he looks like a mere speck to the naked eye, but through the
+microscope we see how wonderfully curious and strange a creature he is.
+He is no idle, lazy fellow. He is instead a most busy mechanic.</p>
+
+<p>Just now he is building a house out of tiny bricks, and he manufactures
+the bricks himself, making them one at a time, and when one is finished
+he lays it down carefully by the side of the last, and fastens it firmly
+in its place with a kind of cement. The bricks are laid in regular tiers
+one above the other.</p>
+
+<p>We find these brickmakers in still water where various<span class="pagenum"><a name="Page_47" id="Page_47">[47]</a></span> water-plants
+grow, especially the water-milfoil and bladderwort. They seem to be
+social beings. They live in large communities, attaching their houses to
+the stems and leaves of the plants so thickly sometimes that they almost
+touch one another. They look, to the naked eye, like lines about one
+eighth of an inch in length. Sometimes they are very thick on the plants
+in New Jersey ponds.</p>
+
+<p>If you take some of the plants and water, and put them in a bottle, you
+can carry a large number of the brickmakers home, where you can watch
+them at your leisure. Take a glass slide which has a little cup-shaped
+hollow to hold a few drops of water, and put a tiny piece of the plant
+with the house attached into this hollow and fill it with some of the
+water from the bottle. Now cover it with a very thin piece of glass and
+lay it over the stage of the microscope, and it is ready to be looked at
+and studied. You will look with both eyes, for your microscope is a
+binocular&mdash;one that has two tubes to look through. The size of the
+objects will depend upon the magnifying power you have chosen.</p>
+
+<p>The first thing you see is a dark, brick-colored,<span class="pagenum"><a name="Page_48" id="Page_48">[48]</a></span> cylinder-shaped house
+which looks to be about the size of a cigar. The little builder who
+lives in this house has been disturbed by the means we have taken to
+make his acquaintance; he has stopped work and gone within. But he is so
+industrious a fellow that he will not remain within very long. As soon
+as it is quite still he will probably come to the door of his house, and
+you will see him thrust out two horns. He will move these horns to the
+right and left, cautiously feeling all around him. He seems very
+cautious indeed. But at last he is satisfied that no enemy is near. Now
+he ventures out. He unfolds his wheels.</p>
+
+<p>These wheels are surrounded with a band of <i>cilia</i>, or flexible hairs,
+which he can put in rapid motion, making the wheels have the appearance
+of revolving very fast. This rapid motion of the cilia forms a swift
+current in the water; and this current brings tiny particles of various
+things to the little mechanic. Some of these particles he uses for food;
+of others, he makes brick. They are carried into an opening between the
+wheels where you can see them revolving very fast until they are
+gathered into a little round,<span class="pagenum"><a name="Page_49" id="Page_49">[49]</a></span> dark-colored pellet. The particles are
+probably held together by a sticky secretion made by the builder.</p>
+
+<p>It takes him about three minutes to make a brick. As soon as it is
+finished, he bends his head over, takes it from its mould between the
+wheels, and lays it down carefully by the side of the last. Then he
+raises his head and begins to make another. The tube thus constructed is
+quite firm and strong. Sometimes when I have found a long tube, I have
+cut off a portion from the top. This can be done, with care, for the
+brickmaker drops to the bottom when disturbed. It is very amusing to
+watch him repair damages and rebuild. Sometimes I have forced one out of
+his tube, but it always soon died. But though industrious, he is so
+cautious, or timid, that he is easily frightened, and therefore he is
+often interrupted in his work. For instance, like some people that we
+know, he is very afraid of snakes. If a harmless little tiny snake comes
+wriggling along through the water anywhere near him, he folds his wheels
+and drops down into his house as quick as a flash. One day a little boy
+was delighted with the fast-revolving wheels. Suddenly, by and by, he
+turned<span class="pagenum"><a name="Page_50" id="Page_50">[50]</a></span> toward me with great disgust plainly showing in his face: "He's
+gone in, 'fraid of a little snake!" he exclaimed.</p>
+
+<div class="figcenter"><img src="images/i_051.png" alt="" /></div>
+
+<p class="caption">FIGURE 1, BRICKMAKER; 2, CURRENT IN WATER; 3, 4, 5, 6,
+DIATOMS; 7, 8, DESMIDS; 9, ALG&AElig;; 10, 11, TRICHODA LYNCEUS; 12,
+SNAKE-LIKE LARVA; 13, PART OF PLANT TO WHICH BRICKMAKER IS ATTACHED; 14,
+BATRACHOSPERMUM MONILIFORM.</p>
+<p>&nbsp;</p>
+
+<p>He is always a great favorite with those who have watched him through
+the microscope. I do not know<span class="pagenum"><a name="Page_51" id="Page_51">[51]</a></span> how long they live, but I have kept the
+same individuals three months or more. I think no one knows the entire
+life-history of any of these little creatures, so here is a grand chance
+for any young microscopist to investigate and become famous.</p>
+
+<p>On the left of the brickmaker in our field of view is a delicate,
+beautiful plant. Only a small part of it is seen in the engraving. It
+has a long, floating stem, thickly set with rosettes of a pearly green
+color. To the naked eye it looks like green slime, and is called "frog's
+spawn;" but the microscope shows us that it is a lovely plant, and some
+wise man has given us a long fine name to call it by if we
+choose&mdash;<i>Batrachospermum moniliform</i>. Let us see if this long name has
+any meaning: <i>Batrachia,</i> a frog, <i>spermum,</i> spawn; ah, after all, only
+another name for frog spawn! The other name, <i>moniliform,</i> means a
+bead-like necklace; and this was given it because the threads that make
+the rosettes look like strings of small pearly-green beads.</p>
+
+<p>All of the strange-looking plants and animals that we see in the
+microscope are known as well by sight and by name by those who make them
+a study, as are<span class="pagenum"><a name="Page_52" id="Page_52">[52]</a></span> the larger animals and plants that we see around us
+every day.</p>
+
+<p>A bright little girl once asked me why such long hard names are given to
+everything in nature. We told her if there was but one language spoken
+in the world there would be no need of using Latin names. But as there
+are many languages, it was found necessary to agree upon some system, so
+that all peoples of different nations might have the same name for an
+animal or plant, and a long time ago all the civilized world agreed to
+use Latin names. Thus our little brickmaker is known all over the world
+as <i>Melicerta ringens</i>.</p>
+
+<p>"A field of view" depends for its interest and variety upon what kind of
+water we put under the microscope. In the one here represented, I first
+took a tiny spray of plant with a brickmaker's house attached, and laid
+it on the hollow glass slide and then used the dipping-tube and brought
+up some of the sediment from the bottom of the bottle; this proved to
+contain several singular-looking plants and animals shown here.</p>
+
+<p><i>Figures</i> 3, 4, 5 and 6, are diatoms, and <i>figures</i> 7<span class="pagenum"><a name="Page_53" id="Page_53">[53]</a></span> and 8 are
+desmids. Naturalists formerly placed both diatoms and desmids in the
+animal kingdom, but now all agree that the desmids are plants, while
+some few still maintain that the diatoms are animals. But the weight of
+evidence is on the plant side of the question.</p>
+
+<p>The desmids are wonderfully beautiful plants; the markings and colors
+are exquisite. A number of species are found in the sediment of every
+swamp and pond.</p>
+
+<p>The diatoms often grow in long ribbon-like masses (<i>fig.</i> 3), and then
+partially separate, remaining joined together at the angles so as to
+form a zigzag chain as seen at <i>figure</i> 4. They have the power of moving
+through the water, changing their places like animals.</p>
+
+<p>A great variety of forms are found, both diatoms and desmids, many still
+undescribed, inviting the young microscopist to study and name them.</p>
+
+<p><i>Figures</i> 10 and 11 are different forms of a little animal, <i>Trichoda
+lynceus</i>. It undergoes a great many changes. In some of its stages, it
+looks so different from the figures here represented that you would
+never dream of its being the same creature.</p>
+<p>&nbsp;</p>
+<p><span class="pagenum"><a name="Page_54" id="Page_54">[54]</a></span></p>
+<p class="center"><span class="big">VIII.&mdash;THE VORTICELLAS.</span></p>
+
+<div class="figleft"><img src="images/i_055.png" alt="CARCHESIUM POLYPINUM."/><p class="center"><b>CARCHESIUM POLYPINUM.</b></p></div>
+
+<p>The tree-vorticellas must ever stand first among all the varied and
+beautiful objects which the microscope reveals. A species common in New
+England and the Middle States is known scientifically by the name of
+<i>Carchesium Polypinum</i>. It is impossible to convey a true idea of its
+beauty from a dead black and white drawing. To be appreciated it must be
+seen in all its living glory&mdash;charming little animals resembling<span class="pagenum"><a name="Page_55" id="Page_55">[55]</a></span>
+bell-shaped lilies on the ends of lovely transparent stems.</p>
+
+<p>How curious nature is in the microscopic world! Only think of a tree of
+living animals! The stems of the tree are jointed, and the little
+creatures can sway the branches about and even throw them into a spiral
+coil so as to bring themselves near the main stem. This gives them the
+appearance of being very polite toward each other; they bow and courtesy
+as if preparing for a grand quadrille, and they are decked out in gay
+colors, red, green, and yellow. The margins of the little cups are
+fringed with hairs, or <i>cilia</i>, which they can put in such rapid motion
+that it makes a current in the water and brings little particles to
+their mouths which they consume as food. They do not accept everything
+that comes in the current. They seem to know what they like as well as
+the higher animals, and act as if they were vexed with some of the
+particles, rejecting and sending them off with a rapid whirling motion.</p>
+
+<p>The largest of these fairy-like trees are visible to the naked eye, but
+it will be necessary for a novice in such matters to use a good strong
+lens to be able<span class="pagenum"><a name="Page_56" id="Page_56">[56]</a></span> to find them readily. They are attached to plants
+growing in water. I have always been most successful in finding them
+among the water-milfoil (<i>Myriophillum</i>) several species of which grow
+in New England and the Middle States. Some of the species are found in
+deep water, others in shallow ponds.</p>
+
+<p>The Bladderworts (<i>Utricularia</i>) are also good plants to search among.
+They grow in similar places. On either of these plants we shall be sure
+to find a good many interesting creatures. If we fail to find the tree,
+we may secure other species of vorticella, all of which are very
+beautiful.</p>
+
+<p>Do you know the <i>Utricularia</i>? I will devote the next chapter to these
+curious plants, and to the microscopic animals which they capture.</p>
+
+<p>It will take a little practice to learn where and how to collect
+material for the microscope. We should not depend too much upon books in
+any branch of natural history. To be successful, you must observe for
+yourselves, experiment and examine independently, consulting books that
+you may name and classify, that you may recognize and name what you<span class="pagenum"><a name="Page_57" id="Page_57">[57]</a></span>
+find. If you fail to find specimens in one spot, try another.</p>
+
+<p>You should not fill your collecting bottles more than two thirds full of
+water, nor crowd too many plants in them. These little creatures must
+have air in order to live, as well as the higher animals.</p>
+
+<div class="figright"><img src="images/i_058.png" alt="FIG. 2."/><p class="center"><b>FIG. 2.</b></p></div>
+
+<p>The finest tree-vorticellas I ever found were in Florida, in the St.
+John's River. These trees were attached to long, floating stems of
+<i>Myriophillum verticillatum</i>, and were unlike any species that I ever
+found at the North. They were very large&mdash;in a microscopic
+sense&mdash;plainly visible to the naked eye, and it took only a moderate
+power to bring out their beauty.</p>
+
+<p><i>Vorticella nebulifera</i> is quite common in swamps and ponds. We find it
+attached to a great number of water plants. This species is not built up
+in the form of a tree, but it is nevertheless beautiful and graceful.
+The delicate, slender stems start from a node, or rounded mass,
+sometimes fifty or more of these fairy like creatures in one colony, all
+attached to a common centre, swaying about, coiling their delicate<span class="pagenum"><a name="Page_58" id="Page_58">[58]</a></span>
+transparent stems, and again uncoiling quick as a flash, apparently
+dallying and playing, but never interfering nor becoming entangled one
+with another.</p>
+
+<p>The <i>Stentor</i> is another member of the <i>Vorticellin�</i> family. It is one
+of the largest of the infusoria, plainly visible to the naked eye, and
+one of the most interesting and curious of all the strange animals in
+the microscopic world. It assumes various forms. When swimming, it looks
+round and plump (<i>Fig.</i> 2), and rushes through the water pell-mell,
+knocking the smaller animals right and left, always seeming to be in a
+great hurry, unless two friendly ones happen to meet, when they
+frequently stop and put their heads together a moment as if exchanging
+greetings, then away they sail again, dashing through the water,
+capturing and devouring the smaller creatures as they go. And now a
+couple meet that are very communicative&mdash;two gossips, no doubt! At all
+events, they put their heads together and conclude to have a good
+sociable time.</p>
+
+<p>And they are sensible enough to know that they cannot stand around loose
+in the water or public highway. So they select a cosey spot and fasten
+their<span class="pagenum"><a name="Page_59" id="Page_59">[59]</a></span> feet to a plant or some firm object, and stretch out their
+footstalks sometimes to a great length, making veritable trumpets of
+themselves. (<i>Fig.</i> 3.)</p>
+
+<p>And who knows what grave matters may be settled during these conclaves?
+or perhaps they are only rehearsing gossip, as they have had every
+possible chance to see what was going on among their neighbors.</p>
+
+<div class="figcenter"><img src="images/i_060.png" alt="THE STENTORS.&mdash;VERITABLE TRUMPETS." /></div>
+<p class="caption">THE STENTORS.&mdash;"VERITABLE TRUMPETS."</p>
+
+<p>Sometimes one settles down alone near a group of others, and seems to
+proclaim in stentorian voice that it is reception day and he is ready to
+receive. Or perhaps he is simply a herald as his name indicates, whose
+business it is to conduct ceremonies<span class="pagenum"><a name="Page_60" id="Page_60">[60]</a></span> and regulate affairs! At any rate,
+though our ears are too dull to catch the voices of these curious beings
+of a lower world&mdash;so near, and yet in another sense, so far away, it
+would be difficult to believe that these animated creatures have no
+means of communication and nothing to communicate.</p>
+
+
+
+<hr style="width: 65%;" />
+
+<p class="center"><span class="huge">PART II</span></p>
+
+<p class="center"><span class="huge">THROUGH A MICROSCOPE</span></p>
+
+<p class="center"><span class="big"><span class="smcap">By Mary Treat</span></span></p>
+
+<hr style="width: 65%;" />
+<p><span class="pagenum"><a name="Page_61" id="Page_61">[61]</a></span></p>
+<p class="center"><span class="big">IX.&mdash;THE UTRICULARIA.</span></p>
+
+<p>It seems strange that innocent-looking plants should capture and kill
+animals; but this is really what the Bladderworts (<i>Utricularia</i>) are
+all the time doing. They grow in ponds and swamps, some species in deep,
+still water, others in shallow ponds.</p>
+
+<p>Fig. 1 shows a portion of the stem of <i>Utricularia clandestina</i>, natural
+size. The little bladders are so nearly transparent, that on bringing
+them under the microscope, or even under a good lens, you can see the
+numerous creatures that they have captured, some partly consumed, others
+still alive.</p>
+
+<p>The bladders on these curious plants remind one of some of the
+<i>Entomostracans</i> which Mr. Wells described in his fourth paper. Look at
+<i>Chydorus sphericus</i> for instance, and then at the magnified bladder
+(<i>Fig.</i> 2) in this article. The branched horns at the mouth or entrance
+have very much<span class="pagenum"><a name="Page_62" id="Page_62">[62]</a></span> the appearance of the antenn� of some of the minute
+animals, and the stem when it is attached to the main branch may be
+likened to a tail. But the way in which they capture and devour the
+pretty little creatures that come within their grasp makes them appear,
+even more than they look, like wicked animals.</p>
+
+<div class="figleft"><img src="images/i_065.png" alt="FIG. 1. PORTION OF A STEM OF UTRICULARIA CLANDESTINA; NATURAL SIZE."/><p class="center"><b>FIG. 1. PORTION OF A STEM OF UTRICULARIA<br/> CLANDESTINA; NATURAL SIZE.</b></p></div>
+
+<p>I have found almost every swimming animalcul� with which I am
+acquainted, caught in these vegetable traps; and when caught they never
+escape. Their entrance is easy enough; there is a sensitive valve at the
+mouth of the bladder, which, if they touch it, flies open and<span class="pagenum"><a name="Page_63" id="Page_63">[63]</a></span> draws
+them in as quick as a flash. These downward-opening bladders not only
+entrap animalcul�, but, more wonderful still, the strong larv� of
+insects. The larv� most frequently caught are those of the mosquito and
+chironomus. Often the mosquito is caught tail first&mdash;the entire body
+inclosed and the head left sticking out. It always looks as if the
+victim might walk or wriggle out, but it never does; and you may be sure
+that it never backed in there of its own accord.</p>
+
+<p>You all know how the mosquito larva wriggles in the water, and is known
+by the common name of "wriggler," or sometimes inaccurately, "wiggler."
+Now just as sure as the tail of this wriggler strikes the mouth of the
+bladder, just so sure is he caught&mdash;drawn in by some unknown power
+quicker than you can speak.</p>
+
+<p>There is yet much to learn about these curious plants. How it is that
+the valve or trap can so firmly hold these strong larv� is still a
+mystery. I have seen a mosquito larva caught by the head when the first
+joint of the body was too large to be admitted through the entrance of
+the bladder, and have<span class="pagenum"><a name="Page_64" id="Page_64">[64]</a></span> patiently watched its frantic efforts to escape,
+but it was never released. The more it thrashed about, the tighter grew
+the fatal trap until death put an end to its struggles.</p>
+
+<p>The chironomus larva is quite unlike that of the mosquito. The
+chironomus has brush-like feet which it can withdraw from sight&mdash;a sort
+of telescopic arrangement&mdash;or extend when it wishes to crawl along the
+plants, while the mosquito wriggles and swims.</p>
+
+<p>The chironomus is caught more often even than the mosquito larva. At
+certain seasons of the year it is almost impossible to find a bladder
+without one or more of these victims entrapped.</p>
+
+
+<div class="figright"><img src="images/i_068.png" alt="FIG. 2. BLADDER OF U. CLANDESTINA MAGNIFIED TWENTY DIAMETERS."/><p class="center"><b>FIG. 2. BLADDER OF U. CLANDESTINA<br/> MAGNIFIED TWENTY DIAMETERS.</b></p></div>
+
+<p>They feed on the water plants, and seem to have a special liking for the
+long-branched antenn� which grow at the mouth of the bladders, and, all
+unconscious of the trap, on, on they go, their sickle-shaped jaws
+cutting the antenn� which they eat as they advance, until their heads
+reach the mouth of the bladder, when they heedlessly touch the valve and
+the trap is sprung and they are drawn within, never more to escape, but
+to be slowly devoured.</p>
+
+<p><span class="pagenum"><a name="Page_65" id="Page_65">[65]</a></span>There is another interesting species of <i>Utricularia</i>, the <i>Purfurea</i>,
+quite different in many particulars from the first. It grows in deep,
+still water. The stems are long, sometimes two feet or more in length,
+and the branches radiate in every direction, so that one plant often
+covers quite a large surface of water. The flowering stems stand above
+the water, and each stem bears three or four very pretty violet purple
+flowers, and it blossoms nearly all summer.</p>
+
+
+
+<p>The flowers are about half an inch broad and quite conspicuous. Most of
+the other species have yellow flowers.</p>
+
+<p>There are no little thread-like leaves on this species, and the bladders
+are on the ends of the little branchlets, and they have no sharp-pointed
+antenn� as in the other species; but in their place is an elegant
+cluster of transparent glassy-like ornamental<span class="pagenum"><a name="Page_66" id="Page_66">[66]</a></span> appendages. The ornaments
+are just above the entrance, and who knows but this is a contrivance set
+there to lure unwary creatures into the trap.</p>
+
+<p>One of the most common little creatures that was caught in this trap,
+was the <i>Tardigrada</i>, or water bear. He looks like a tiny cub, but
+unlike his great namesake, he has eight legs, and he frequently slips
+out of his old skin and comes out in a new suit.</p>
+
+<p>I often find them crawling in a forest of these plants, peering out of a
+thick jungle&mdash;now ascending a branch and out on a limb, holding fast
+with their long claws, and apparently looking around to see what they
+can find.</p>
+
+<p>Now one seems to be attracted to this elegant glassy cluster of
+<i>Utricularia</i>. At all events he is soon pushing his head among the
+delicate stems, then stops a moment, standing perfectly still as if
+listening. Perhaps he hears the groans of his dying comrades, but all
+unheeding the warning, he steps forward, touches the fatal spring, when
+in he goes to perish with his comrades.</p>
+
+<div class="figright"><img src="images/i_070.png" alt="FIG. 3. CHIRONOMUS LARVA: BACK VIEW WITH FEET DRAWN IN AND JAWS CLOSED; SIDE VIEW WITH FEET EXTENDED AND JAWS CLOSED."/><p class="center"><b>FIG. 3. CHIRONOMUS LARVA:<br/> BACK VIEW WITH FEET DRAWN<br/> IN AND JAWS CLOSED; SIDE VIEW<br/> WITH FEET EXTENDED<br/> AND JAWS CLOSED.</b></p></div>
+
+<p>Young microscopists may like to know that the <i>Utricularia</i> can be
+preserved in the house a long<span class="pagenum"><a name="Page_67" id="Page_67">[67]</a></span> time by putting the stems or sprays in an
+open, shallow dish of water where they will grow readily. I have kept
+the plants months together in a large glass dish where they looked
+charmingly beautiful and were the admiration of all who saw them. It is
+very interesting to watch their growth. The ends of the growing sprays
+unroll like ferns, and with a magnifying glass you can see the
+development of the little bladders, and you may make discoveries&mdash;who
+knows? I know that for a long time it was a mystery to me how the
+bladders captured and imprisoned the little animals. Every day I saw
+they were entrapped and never escaped, and I studied and pondered over
+the matter a long time, and was so interested and determined to learn
+the secret that I spent night after night looking through the
+microscope, watching the strange, unwary creatures fall into the trap.</p>
+
+<p><span class="pagenum"><a name="Page_68" id="Page_68">[68]</a></span>At last I concluded to adopt the following plan: I took sprays of the
+plants that I had grown in clear water that contained no animalcules, so
+that all the bladders were empty and quite transparent. In another dish
+I had put a great many masses of mosquito eggs. Mosquito eggs are found
+floating on almost any standing water, in dark, compact masses. In warm
+weather they hatch in a few hours. So you can understand how quickly I
+could swarm a small vessel of water with the mosquito larv� by
+introducing the eggs where I wished them to hatch. When they were
+hatched I put some of the water in which was a large number of the tiny
+creatures into the live box with a spray of the plant containing empty
+bladders. I placed the box under the microscope and closely watched the
+manner of capture. I became certain that in almost every instance the
+larv� were caught tail first. The tail is brush-like, and when it swept
+over the door or valve that leads into the bladder, I saw that the door
+would immediately fly open and always draw the larva in. I soon became
+satisfied that the valve was very sensitive when touched at the right
+point, but to this day I cannot tell what the<span class="pagenum"><a name="Page_69" id="Page_69">[69]</a></span> power is that so quickly
+draws the creatures within. I earnestly hope that some young
+microscopists will yet be able to ferret out the cause of this singular
+power.</p>
+
+<p>Those who have read Mr. Darwin's very interesting book on <i>Insectivorous
+Plants</i>, will have noticed that he says the valve of <i>Utricularia</i> is
+not in the least sensitive, and that the little creatures force their
+way into the bladders&mdash;their heads acting like a wedge. But this is not
+the case, as Mr. Darwin himself was convinced some years before his
+death. In his usual kind, gracious manner he admitted that he was wrong,
+and gracefully says the valve must be sensitive, although he could never
+excite any movement. In a letter to me bearing date June 1st, 1875, he
+says:</p>
+
+<p>"I have read your article (in <i>Harpers Magazine</i>) with the greatest
+interest. It certainly appears from your excellent observations that the
+valve is sensitive.... I cannot understand why I could never with all my
+pains excite any movement. It is pretty clear I am quite wrong about the
+head acting like a wedge. The indraught of the living larva is
+astonishing."</p>
+<p>&nbsp;</p>
+<p><span class="pagenum"><a name="Page_70" id="Page_70">[70]</a></span></p>
+<p class="center"><span class="big">X.&mdash;FREE SWIMMING ANIMALCULES.</span></p>
+
+<p>The Brickmaker, Floscules, and Vorticellas are quiet peaceable citizens
+of the microscopic world, and seem to be impressed with the graver
+duties of life; they set up housekeeping and settle down for life moored
+to one spot. But there are many others that live a free-and-easy sort of
+life&mdash;a wandering gypsy kind of an existence, always on the move; and
+there is not much satisfaction in trying to follow these rovers if we
+wish to make a careful study of their structure.</p>
+
+<div class="figleft"><img src="images/i_073.png" alt="SKELETON WATER WHEEL."/><p class="center"><b>SKELETON WATER WHEEL.</b></p></div>
+
+<p>So to be enabled to examine them you will be compelled to imprison them
+in the live-box and<span class="pagenum"><a name="Page_71" id="Page_71">[71]</a></span> bring just as much pressure to bear upon them as
+they will stand without crushing, which with careful practice you may
+soon learn to do. But if you are simply making the acquaintance of these
+little creatures for amusement, it is more interesting and satisfactory
+to watch them while they are unrestrained, and see the curious feats
+they perform.</p>
+
+<p>One of the most amusing of these little animals is the Skeleton
+Wheel-bearer (<i>Dinocharis pocillum</i>). His portrait is seen at <i>Figure</i>
+1. He has a long foot consisting of three joints, and these joints are
+as perfect as those of our own knees and elbows, and can be moved as
+easily forward and sideways, but not backward. The joints and foot are
+not covered with any fleshy substance, from which fact&mdash;the joints being
+so conspicuous&mdash;it probably received the name Skeleton. Two long slender
+toes extend from the last joint, and from the tips of these the Skeleton
+can show us more wonderful feats than any circus performer.</p>
+
+<p>The toes can be widely separated, or brought close together, like a pair
+of tongs. Sometimes he stands on the tip of one toe and throws his body<span class="pagenum"><a name="Page_72" id="Page_72">[72]</a></span>
+forward, or from side to side with a rapid motion; then straightening
+himself up, he stands on the tips of both toes as if posing, remaining
+perfectly still for a few moments and giving us an opportunity to take a
+good look at his curious body which is encased in a pretty vase-shaped,
+three-sided transparent shell. The head extends from the top of the
+vase, and is surmounted with the usual cilia, or wheel, which we see
+among all the rotifera. When he is tired of posing, away he swims in a
+graceful, easy manner, with his long foot straightened out and the toes
+brought close together.</p>
+
+<p>You sometimes will find these pretty creatures, especially in
+summer-time, very numerous in the sediment at the bottom of your
+collecting bottles. Often I have found dead specimens, and very
+beautiful objects they sometimes are. Great numbers of tiny scavengers
+have completely cleaned out all of the soft parts of the body in a most
+neat and perfect manner, leaving the beautiful shell and vertical
+column, that runs through it, and the foot and toes, entire and perfect
+in all of their parts.</p>
+
+<p>Think of the minuteness of these scavengers<span class="pagenum"><a name="Page_73" id="Page_73">[73]</a></span>&mdash;untold numbers of them
+preying upon the body of an object invisible to the naked eye; and yet
+this body is a mammoth by the side of one of the scavengers! The mind
+can scarcely grasp the minuteness of these tiny creatures&mdash;creatures
+that seem to enjoy existence, eating, and apparently playing and
+entertaining each other like the higher animals.</p>
+
+<div class="figright"><img src="images/i_076.png" alt="WHIPTAIL."/><p class="center"><b>WHIPTAIL.</b></p></div>
+
+
+<p>The whiptail (<i>Mastigocerca carinata</i>) (<i>Fig.</i> 2) is another delicate
+pretty little creature, and, like the skeleton, is encased in a glassy
+shell. It has a long, tapering, spine-like foot, or, more properly
+speaking, a toe which is attached to a very short foot by means of a
+flexible joint which allows free motion. You often will find him in
+company with the Skeleton, and they seem to vie with each other in
+performing strange feats. The Whiptail, if possible, looks even more
+comical than the Skeleton when it stands on the tip of its long toe, a
+toe which is longer than the entire length of the body, now bending over
+and nibbling at the plants, now whisking<span class="pagenum"><a name="Page_74" id="Page_74">[74]</a></span> around as if looking and
+inquiring into some passing object, then sailing through the water with
+a graceful, easy motion beyond sight.</p>
+
+<p><i>Brachionus pala</i> is also a lovely creature encased in a delicate
+transparent shell. It is considerably larger than the Skeleton or
+Whiptail, and is just visible to the unassisted eye. If you drop it in a
+phial of clear water and hold it up to the light, you can distinctly see
+it gliding through the water like a revolving white speck. A moderate
+power of the microscope reveals its beauty. The shell is swelled at the
+sides, and narrow at the mouth, and round over the back, while the under
+side is flat.</p>
+
+<div class="figcenter"><img src="images/i_077.png" alt="LARGE ROTIFER." /></div>
+<p class="caption">LARGE ROTIFER.</p>
+
+<p>Like the Skeleton and Whiptail, the head of the little Brachion is seen
+protruding from the upper part of the shell; but instead of one wheel
+this charming little creature has two, and nothing can be<span class="pagenum"><a name="Page_75" id="Page_75">[75]</a></span> more lovely
+than a sight of these fast revolving wheels, like two beautiful crowns.</p>
+
+<p>The reason the wheel looks so strikingly beautiful in <i>Brachionus</i> is
+owing to the long cilia which is longer in this genus than in other
+genera of this great family.</p>
+
+<p>The foot of <i>Brachionus</i> is more curious than that of the Skeleton. It
+is telescopic, and the little animal has the most perfect control over
+it. He can draw it within the body so that it looks like a ball, and
+again quickly thrust it out and whisk it around in all directions like a
+tail. It has two short toes at the end which can be separated or brought
+together at pleasure. And he can firmly anchor himself by the toes and
+stretch forward, showing you the great length of the foot. Now he rolls
+from side to side without letting go his hold and performs other strange
+feats, and all the while the wheels are rapidly revolving, he has
+stopped his headlong career through the water and has settled down to
+get his supper.</p>
+
+<p><i>Fig.</i> 3 represents one of the largest rotifers with which I am
+acquainted. I have never been able to<span class="pagenum"><a name="Page_76" id="Page_76">[76]</a></span> find a description or engraving
+of it in any work on microscopy. But it is probably well known to
+microscopists, for it has a wide range. I have found it in New
+Hampshire, New Jersey and Florida.</p>
+
+<p>You cannot get a true idea of its graceful beauty from the drawing, as
+it is represented as it was seen in the live box with sufficient
+pressure upon it to keep it from moving, while serving as a model. And
+no engraving, however perfect, can give you any idea of its brilliant
+transparency and delicate coloring.</p>
+
+<p>The play of the muscles and internal organs are plainly visible, and you
+can always tell what he has chosen for dinner. Diatoms and desmids form
+a portion of his diet. His mouth is below the wheel. When he is hungry
+he anchors himself by his forked tail and sets his wheel in rapid
+motion, which makes a powerful current sufficient to bring quite large
+objects to his head, frequently too large to admit into the mouth. He
+will often repeatedly try to take a desmid entirely too large for his
+mouth, and his man&oelig;uvres are quite comical as he whirls it round and
+round, nipping it on all sides. You will see by looking<span class="pagenum"><a name="Page_77" id="Page_77">[77]</a></span> at the figure
+that everything has to be swallowed or taken within the body before it
+reaches the mouth. While the desmid is within the body the rotifer has
+control over it sufficient to take it into the mouth if it is of the
+right size, but if it is too large he soon becomes disgusted and ejects
+it with a sudden movement which sends it whirling rapidly away. And now
+he takes a smaller one and his jaws work vigorously a moment or two,
+when he swallows it almost entire, and we can plainly see the pretty
+markings and brilliant green color after it has passed into the stomach.</p>
+
+<p>This large rotifer is plainly visible to the naked eye, and you will
+find it in both shallow and deep ponds, wherever water plants grow,
+during the months of July and August.</p>
+<p>&nbsp;</p>
+<p><span class="pagenum"><a name="Page_78" id="Page_78">[78]</a></span></p>
+<p class="center"><span class="big">XI.&mdash;ON THE BEACH.</span></p>
+
+<p>Many of our young people spend the month of August at the seaside, and
+if those who wish to learn something of the curious microscopic animals
+will stroll along the beach when the tide has receded, until they come
+to rocky places and little pools filled with salt water and various
+marine plants, they will find a form of animal life quite different from
+that in fresh water ponds. These little pools along the rocky coast are
+the homes of countless numbers of zoophytes&mdash;animals which have a
+stronger resemblance to plants and flowers than any we have found in
+fresh water.</p>
+
+<p>Look for specimens for microscopic work on the surface of the rocks, on
+dead sea shells, and on the sea-weeds. On the sea-weeds you will often
+find a white filmy network which to the unassisted eye looks like simple
+white threads running and spreading in<span class="pagenum"><a name="Page_79" id="Page_79">[79]</a></span> every direction, and at every
+angle of the network a tiny stem shoots up, branching out like a tree
+and making a miniature forest.</p>
+
+<div class="figright"><img src="images/i_082.png" alt="LAOMEDA."/><p class="center"><b>LAOMEDA.</b></p></div>
+
+<p>Now if you apply a low power of the microscope, you will find the little
+forest is made up of a strange animal called <i>Laomeda geniculata</i>.
+(<i>Fig.</i> 1.) Each branch of this compound animal terminates and expands
+into a lovely vase and is the home of a polype. The polype is not a
+separate individual any more than the end of a growing branch is
+separate from the tree on which it grows.</p>
+
+
+
+<p>When the creature is hungry he sends out from the margin of the vase
+from fifteen to twenty tentacles, ranged around the rim like the petals
+of a flower. <i>Figure</i> 1 shows one of these expanded polypes as seen
+through the microscope.</p>
+
+<p>The tentacles or feelers are fishing rods to bring game to the fleshy
+mouth which is protruded from the centre of the vase. A great many such<span class="pagenum"><a name="Page_80" id="Page_80">[80]</a></span>
+mouths surrounded with their tentacles are necessary to feed this
+singular compound creature.</p>
+
+<p>All that I can tell you of these microscopic animals will be nothing
+compared to a study of them with your own eyes, so I will only give you
+hints of what you may expect, thereby hoping to create sufficient
+interest to induce you to stroll to out-of-the-way places, where you may
+find many of Nature's marvellous works. We want more field workers in
+every department of Natural History, and especially in microscopy where
+unexplored fields are awaiting you.</p>
+
+<p>When the tide has receded, various objects of interest will meet your
+eye at every step. Look at that old dead sea shell covered with a rough,
+shaggy nap. Ah, as we approach, the shell is moving off! What can it
+mean? Why, it means that a hermit crab has set up housekeeping in the
+old shell, and he, no doubt, thinks us suspicious characters and wants
+none of our company. But we are after microscopic objects now, and this
+hermit, interesting as he is, is not to claim our attention to-day. The
+rough coat on the outside of the shell is of more interest.</p>
+
+<p>With the aid of a pocket lens you will find it another<span class="pagenum"><a name="Page_81" id="Page_81">[81]</a></span> zoophyte. You
+can see the polypes, as thick as they can well stand, rising erect and
+straight from the shaggy coat like a miniature field of wheat. With a
+higher power you will see that each mouth is surrounded with tentacles
+like those of <i>Laomeda</i>, but yet it is quite a different looking
+creature. If we touch one of these polypes ever so lightly, the great
+army immediately close their tentacles, for the same life pervades the
+entire colony, and those on the extreme outer edge feel the contact as
+quickly as the one we touched.</p>
+
+<div class="figright"><img src="images/i_084.png" alt="LARES."/><p class="center"><b>LARES.</b></p></div>
+
+<p>One of the most comical and amusing creatures of all the zoophyte tribe,
+is figured and described by Mr. Gosse under the name of <i>Lar
+Sabellarum</i>. He was the first observer of this curious creature; he
+found it inhabiting the outer edge of the tube of a worm&mdash;the Sabella.
+So when you are looking for microscopic objects do not overlook any tube
+that you may see standing above the surface of sand and mud, as it may
+be surrounded by this singular zoophyte.<span class="pagenum"><a name="Page_82" id="Page_82">[82]</a></span> The tubes usually extend an
+inch or two above the surface, and about as far below. I have found the
+tubes surrounded with the creatures, but not in as good condition for
+investigation as those Mr. Gosse mentions. Mine were too thick and
+crowded to distinguish clearly. But as Mr. Gosse describes them, they
+have a most close resemblance to the human figure as they stand erect
+around the mouth of the tube of Sabella.</p>
+
+<p>A loose network surrounds the top of the tube and the strange forms
+spring from the angles of the meshes. The creatures are furnished with
+heads, and immediately below the head are two arms. (<i>Fig.</i> 2.) The head
+moves to and fro on the neck, while the arms are tossed wildly about as
+if gesticulating in the most earnest manner. Or, as in the wild and
+disorderly dances of savages the body sways back and forth while the
+arms are thrown upward and downward in a frantic way.</p>
+
+<p>One summer I found a colony standing so thickly together that they did
+not show off to very good advantage. Apparently they were like a packed
+army of Liliputians, striking out with their arms and<span class="pagenum"><a name="Page_83" id="Page_83">[83]</a></span> struggling with
+one another. But when I came to observe them more carefully, I found
+they were not interfering with one another at all, but each was intent
+on his own business of obtaining a livelihood.</p>
+
+<div class="figright"><img src="images/i_086.png" alt="HAND OF BARNACLE."/><p class="center"><b>HAND OF BARNACLE.</b></p></div>
+
+
+<p>The Sabella which inhabits the tube, is of itself a most attractive
+object. Most elegant fringed filaments proceed from the head, and wave
+back and forth like a fan, and near the ends of these delicate slender
+filaments are little black balls, supposed to be eyes. If they are eyes,
+the Sabella has no lack of vision, and this may account for his seeming
+watchfulness. He is always on the alert and drops down into his house at
+any approach. Only with the utmost caution will you have an opportunity
+to leisurely look at his rare beauty.</p>
+
+<p>When for the first time I saw this elegant, beautiful creature rising
+out of the tube, and waving its fringed fan-like filaments, I did not
+wonder at Mr. Gosse's enthusiasm. Neither was I surprised that he should
+be reminded of the old Roman mythology and call<span class="pagenum"><a name="Page_84" id="Page_84">[84]</a></span> the zoophytes which
+surround the tube, "Lares," for the rare beauty of Sabella would suggest
+the protection of guardian spirits. He says:</p>
+
+<p>"These curious creatures have afforded much entertainment, not only to
+myself, but to those scientific friends to whom I have had opportunities
+of exhibiting them. When I see them surrounding the mansion of the
+Sabella, gazing, as it were, after him as he retreats into his castle,
+flinging their wild arms over its entrance, and keeping watch with
+untiring vigilance until he reappears, it seems to require no very vivid
+fancy to imagine them so many guardian demons; and the Lares of the old
+Roman mythology occurring to memory, I described the form under the
+scientific appellation of <i>Lar Sabellarum</i>. You may, however, if it
+pleases you better, call them 'witches dancing round the charmed pot.'"</p>
+
+<p>When the tide is out you will frequently notice barnacles adhering to
+the rocks, or to the timbers used in the construction of wharves. Pray
+stop and examine them critically and see what admirable fishers they
+are. Their fishing-nets are composed of several long, flexible, jointed
+fingers, thickly beset<span class="pagenum"><a name="Page_85" id="Page_85">[85]</a></span> with sensitive hairs. When the fisher wants a
+meal he thrusts his long hand (<i>Fig.</i> 3) out the door of his stone
+house; the sensitive fingers quickly tell when they come in contact with
+anything good to eat, and they curl over and grasp it and convey it to
+the mouth.</p>
+
+<p>These barnacles are wonderful creatures and well worthy your continuous
+study. They pass through several stages. When young they are a gay
+rolicking set, swimming freely in the water; but as maturity approaches
+they settle down in stone houses, never more to rove about, and set up
+fishing for a living.</p>
+<p>&nbsp;</p>
+<p><span class="pagenum"><a name="Page_86" id="Page_86">[86]</a></span></p>
+<p class="center"><span class="big">XII.&mdash;RHIZOPODS.</span></p>
+
+<p>Rhizopods are the lowest creatures in the animal kingdom. Some of them
+are apparently nothing more than animated protoplasm. Protoplasm
+pertains to the first formation of living bodies, whether vegetable or
+animal, and it appears to be only a viscid, glutinous, unformed mass of
+jelly-like substance, yet these rhizopods seem endowed with something
+more than simple life.</p>
+
+<div class="figleft"><img src="images/i_089.png" alt="FIG. 1. AM&OElig;BA PRINCEPS, IN DIFFERENT FORMS."/><p class="center"><b>FIG. 1. AM&OElig;BA PRINCEPS, IN DIFFERENT FORMS.</b></p></div>
+
+<p>Let us take the lowest of these lowly creatures, the <i>am&oelig;ba</i>, or
+proteus, which we may find during the summer in almost every fresh water
+pond. I cannot describe it, for, like its namesake, it is constantly
+changing its form, slipping away from us, as it were,<span class="pagenum"><a name="Page_87" id="Page_87">[87]</a></span> right before our
+eyes, and assuming a new shape. As Proteus of old could assume any form,
+either plant or animal as he pleased, so our <i>am&oelig;ba</i> can assume
+various forms at pleasure.</p>
+
+<p>You will remember that Homer introduces Proteus in the fourth book of
+the <i>Odyssey</i>. He makes him the servant of Neptune, and says his office
+was to take care of the seals or sea-calves. And who knows but his
+namesake may have some such office among the curious beings of the
+microscopic world which is peopled with as many strange creatures as
+those we read of in ancient mythology?</p>
+
+<p>We frequently see our proteus adhering to a leaf of some water plant
+when it looks like a little ball of jelly; and while we are looking at
+it, it pushes out an arm here, and now another there, and still another,
+as if feeling for something. (<i>Fig.</i> 1, <i>Am&oelig;ba princeps.</i>) Not finding
+anything to its taste, it moves or crawls along with its temporary arms
+extended&mdash;all the while changing them, throwing one out on this side,
+then on that, then contracting and pushing out in another place. It
+seems to be actively in search of something. At last it has reached a
+moving diatom<span class="pagenum"><a name="Page_88" id="Page_88">[88]</a></span> with one of its long arms, which it immediately wraps
+around it, and now the other arms are contracted and the creature
+actually folds itself around its dinner! He turns himself outside in,
+and makes a temporary stomach, and proceeds to digest the soft parts of
+the diatom. After he has extracted all the nourishing part, he squeezes
+or pushes out the clear, transparent shell, and starts in search for
+something more.</p>
+
+<p>It is not known to a certainty how the <i>am&oelig;b�</i> are produced, but this
+much is known: If a portion of the body is detached from the rest, it
+does not die, but becomes an independent <i>am&oelig;ba</i>. If a portion of one
+of the arms becomes separated from the main body, it does not seem to
+incommode the creature in the least, and the small part soon begins to
+extend tiny arms and behave in every way like its parent. And this may
+be the only way in which the children of Proteus are made&mdash;veritable
+children of his own flesh.</p>
+
+<p>How strange it seems that a jelly-like mass of substance without form or
+organization should be endowed with life and sufficient sense to go in
+search of food and have the power of selection.</p>
+
+<p><span class="pagenum"><a name="Page_89" id="Page_89">[89]</a></span>Life manifested in the lowest animal or plant is just as wonderful and
+hard to understand as that which pervades the higher animals.</p>
+
+<p>Some of the species of the fresh water <i>am&oelig;ba</i> live in shells of
+various forms and patterns. One which we often see has a little house
+made of tiny particles of sand and minute bits of shell soldered
+together with a kind of cement which hardens in water; these are vase or
+pitcher-shaped and always look rough on the outside.</p>
+
+<div class="figcenter"><img src="images/i_092.png" alt="FIG. 2. TESTACEOUS FORMS OF AM&OElig;BAN RHIZOPODS." /></div>
+<p class="caption">FIG. 2. TESTACEOUS FORMS OF AM&OElig;BAN RHIZOPODS.</p>
+
+<p>We may always know the different species by the forms and patterns of
+the shells in which they live. Some have very regular shells and
+prettily marked. These are usually rounded or arched on one side and
+flat on the other.</p>
+
+<p>When you are looking for various microscopic objects in pond water you
+will often see these tiny shells<span class="pagenum"><a name="Page_90" id="Page_90">[90]</a></span> among the sediment on your slides, and
+if you will patiently wait a few moments you will soon see delicate,
+transparent arms slowly pushing out on every side like cautious feelers.
+(<i>Figure</i> 2, <i>Am&oelig;ba in Shell.</i>&mdash;<i>Carpenter</i>, p. 445.)</p>
+
+<p>But the most beautiful forms, and by far the greatest variety of these
+microscopic shells are found in the ocean and in marine deposits. If we
+look at the seaweeds which grow on the rocks we may see many white
+specks adhering to every part of the plants. With a lens we find the
+minute specks are spiral shells of many species belonging to the class
+<i>Foraminifera</i>, and very closely allied to the <i>am&oelig;ba</i>. The shells
+are of most elegant form and pattern. The large sea-shells which we so
+much admire are not half so lovely in form or color as these seen
+through a microscope. Some of the living animals and the castles in
+which they dwell are crimson in color, others a delicate pink.</p>
+
+<p>Let us take one of these living shells while it clings to the sea-weed
+and carefully cut off the smallest portion of the plant to which it
+adheres, so as to disturb the occupant as little as possible; and now
+place it in<span class="pagenum"><a name="Page_91" id="Page_91">[91]</a></span> the live box with some of the salt water and we shall soon
+have a most beautiful sight.</p>
+
+<p>See, the creature is throwing out delicate, transparent threads or
+filaments in every direction, like fine-spun glass. How charming it
+looks with the beautiful shell in the centre, surrounded by this moving,
+filmy halo, and how slowly and cautiously the filaments are extended! He
+is not a heedless, reckless creature, rushing into needless danger, but
+a quiet, timid citizen. Although he was such a long time throwing out
+his misty arms, when he scents danger he withdraws them as quick as a
+flash. The least jar of the live-box, or a little wriggling larva&mdash;much
+too large for him to manage, however&mdash;are sufficient to make him take in
+all of his lines; but when quiet is restored, they are again stretched
+out. And for what purpose are these slender filaments extended? Ah, an
+innocent animalcule has become entangled among the shimmering, filmy
+threads, and now the threads coalesce, run together like the arms of
+<i>am&oelig;ba</i>, and disappear, and the animalcule is drawn within the walls
+of the beautiful castle, and we are left to conjecture the fate of the
+little victim. <i>Figure</i> 3, <i>Rotalia</i><span class="pagenum"><a name="Page_92" id="Page_92">[92]</a></span> <i>Ornata</i>&mdash;which shows its delicate
+filaments extended.</p>
+
+<div class="figleft"><img src="images/i_095.png" alt="FIG. 3. ROTALIA ORNATA."/><p class="center"><b>FIG. 3. ROTALIA ORNATA.</b></p></div>
+
+<p>These tiny creatures have been so numerous way back in the early ages of
+the world, that entire strata of rocks, several feet in thickness, in
+various parts of the world, are made up of their skeletons. The city of
+Richmond, Virginia, is built over rocks, composed largely of the minute
+fossils of <i>Diatomace�</i> intermingled with the <i>Foraminifera</i> and others.</p>
+
+
+
+
+<p>A single prepared slide of these fossils will afford entertainment for
+an entire evening, so great is the diversity of form and so many
+hundreds on one slide. The Bahama Islands furnish the finest specimens
+of these fossils. The slides can be procured of any large dealer in
+optical instruments, or, what is still better, the young microscopist
+can soon learn to prepare them for himself, as ample directions are
+given in the books on the microscope.</p>
+
+<p><span class="pagenum"><a name="Page_93" id="Page_93">[93]</a></span>In bidding my young readers adieu I shall not lose entire thought of
+them, but often when I am engaged in looking through the microscope, I
+shall think and ask myself, "Are they, too, absorbed in this pleasant
+work, and how many will become true workers and original investigators
+in this great field?" We shall all know in due time, for no earnest
+worker in any branch of science can long remain unknown. He will be
+found out sooner or later. A devoted student in microscopy will become
+so happy over the marvellous creatures and their curious ways that he
+cannot keep his pleasure to himself.</p>
+
+<p><span class="pagenum"><a name="Page_94" id="Page_94">[94]</a></span></p>
+
+
+
+<hr style="width: 65%;" />
+<p><span class="pagenum"><a name="Page_95" id="Page_95">[95]</a></span></p>
+<p class="center"><span class="huge">PART III</span></p>
+
+<p class="center"><span class="huge">A HOME-MADE MICROSCOPE,<br/> AND HOW TO USE IT</span></p>
+
+<p class="center"><span class="big"><span class="smcap">By Frederick LeRoy Sargent</span></span></p>
+
+
+<p><span class="pagenum"><a name="Page_96" id="Page_96">[96]</a></span></p>
+<hr style="width: 65%;" />
+<p><span class="pagenum"><a name="Page_97" id="Page_97">[97]</a></span></p>
+<p class="center"><span class="big">XIII.&mdash;HOW TO SEE A DANDELION.</span></p>
+
+<p>A simple microscope, some mounted needles, a sharp knife and a pair of
+small forceps, are the only things needed to begin with.</p>
+
+<p>There are many kinds of simple microscopes sold, some of which are of
+moderate price and answer every purpose; but if one has a little
+mechanical skill the cheapest way is to buy a magnifier and make the
+rest of the microscope one's self. What is known as the "bellows
+pattern," with three lenses, is one of the best of the cheaper forms of
+magnifiers, and is an admirable little instrument.</p>
+
+<div class="figcenter"><img src="images/i_101.png" alt="FIG. 1." /></div>
+<p class="caption">FIG. 1.</p>
+
+<p><i>Fig.</i> 1 shows a home-made microscope ready for use. It will be seen
+that the main part consists of a wooden box having a hole in the top and
+open in front. To the back is attached a cork by means of a piece of
+thin metal as shown in <i>fig.</i> 2. Through this cord slides a rod on which
+slides another cork. A piece of brass wire has one end<span class="pagenum"><a name="Page_98" id="Page_98">[98]</a></span> wound round the
+upper cork while the other end projects as an arm at right angles to the
+rod, and this projecting end sharpened and upturned, passes through
+holes drilled in the handle of the magnifier, and thus supports it. The
+lenses are focused, <i>i. e.</i> brought to the right distance from the
+object viewed, by sliding the cork up and down on the rod.</p>
+
+<p><span class="pagenum"><a name="Page_99" id="Page_99">[99]</a></span>The object rests on a piece of glass laid over the hole in the top of
+the box. A piece of wood covered with white paper and placed below the
+object at an angle of about forty-five degrees answers for a reflector
+to illuminate those objects through which the light can pass. The pure
+white surface is better for the purpose than a mirror.</p>
+
+<div class="figcenter"><img src="images/i_102.png" alt="FIG. 2." /></div>
+<p class="caption">FIG. 2.</p>
+
+<p>The most delicate part of the construction is making the holes in the
+corks for the rod to slide through. This may be done perfectly, however,
+by making the holes with a rat-tail file, trying the rod<span class="pagenum"><a name="Page_100" id="Page_100">[100]</a></span> now and then
+until it moves just right. The best thing for the rod is a piece of
+brass wire one quarter of an inch thick; a lead pencil however is a good
+substitute. Before bending the end of the brass wire arm it is well to
+heat it red-hot at the point of bending, to take out the temper: as
+otherwise it may break. The holes in the handle of the magnifier should
+be drilled as near the front as possible and so arranged that when the
+magnifier is in position the smallest lens will be near the object.</p>
+
+<div class="figcenter"><img src="images/i_103.png" alt="FIG. 3." /></div>
+<p class="caption">FIG. 3.</p>
+
+<p>The mounted needles are shown in <i>fig.</i> 3. One pair of each kind will be
+enough to start with. To make one, take a fine needle, break off about a
+third, so it will not be too long and springy; then with a pair of
+pincers force it into the handle point first, withdraw it and finally
+force it in again with the point out. It may be easily bent with the
+pincers by first heating it to redness in a flame. When bent, heat it
+red once more and plunge quickly into water to re-temper it. Rubbing on
+an oil stone may<span class="pagenum"><a name="Page_101" id="Page_101">[101]</a></span> be necessary to remove roughness. Should the handles
+show any tendency to split, it would be well to wrap the end tightly
+with waxed thread.</p>
+
+<p>The forceps (<i>fig.</i> 4) may be purchased either of brass or steel at no
+great expense. Although not necessary it is more convenient to have them
+curved than straight.</p>
+
+<div class="figcenter"><img src="images/i_104.png" alt="FIG. 4." /></div>
+<p class="caption">FIG. 4.</p>
+
+<p>If the reader will carefully follow the directions given below and
+endeavor to see for himself all the parts spoken of, he will probably
+have very little difficulty afterward in the use of the instruments just
+described; and the enjoyment he will have when he has learned how to
+examine little things, will amply repay for careful and persistent
+efforts at the start. Get a Dandelion in full bloom and also one that
+has gone to seed.</p>
+
+<p>Have the microscope and the other instruments ready for use. The best
+place to work is on a table in front of a window where there is plenty
+of light, but not the direct rays of the sun.</p>
+
+<p><span class="pagenum"><a name="Page_102" id="Page_102">[102]</a></span>Now cut the blossom in halves from the stem up. It will be seen that the
+stem is hollow and ends above in a cushion-like expansion. From the
+upper surface of this grow a number of little flowers, while from the
+sides there sprang two rows of little green organs that enclose the
+flower cluster like a cup. Remove one of the flowers with the forceps
+and place it in a drop of water on the glass stage of the microscope.
+Examine with one and one half inch power.<a name="FNanchor_A_1" id="FNanchor_A_1"></a><a href="#Footnote_A_1" class="fnanchor">[A]</a></p>
+
+<p>Be careful to get just the focus. You are now ready to see the general
+form of the flower. At the base is a little body with roughened sides
+and slightly narrowed above (the ovary). Springing from the top of the
+ovary are a number of fine bristles (the pappus). Inside the bristles is
+a yellow portion, tubular below and flat above (the<span class="pagenum"><a name="Page_103" id="Page_103">[103]</a></span> corolla).
+Projecting from the tube of the corolla is a little yellow rod (the top
+of the stamens joined together); and coming from among the stamens are
+two slender recurved organs (the stigmas).</p>
+
+<p>Now take a mounted needle in each hand and holding one needle on the
+flat part of the corolla split open the tubular part with the other. By
+keeping the lower part spread open with the needles, you will see that a
+number of delicate yellow threads grow from the sides of the corolla and
+are connected with the yellow stamen rod. These threads are another part
+of the stamens. In the middle of the flower is a single thread-like
+organ (the style) which comes from the top of the ovary and passing
+through the stamens projects beyond them, divided into two stigmas.</p>
+
+<p>Most of my readers have probably studied enough botany to know the names
+of the different parts of a flower, but very likely many of them do not
+recognize the parts of the Dandelion flower as looking anything like the
+parts of the flower with which they are familiar.</p>
+
+<p>Before proceeding further, therefore let us take<span class="pagenum"><a name="Page_104" id="Page_104">[104]</a></span> a Morning-Glory
+flower&mdash;which you all know and can easily obtain, or at least some
+flower like it&mdash;and let us see that the parts of the two correspond.</p>
+
+<p>Commencing in the centre we find in both a pistil, consisting of an
+ovary at the base and a stigma at the top and a style between. In the
+Dandelion the stigma is split in halves, while in the morning-glory it
+is not split but has three little knobs. Around the pistil come the
+stamens in each case. Each stamen is composed of two parts: a slender
+stem (the filament) and a little sac at the end (the anther) which is
+filled with pollen dust. In both cases the filaments grow out of the
+sides of the corolla. But while in the Morning-Glory the anthers are
+entirely free from one another, in the Dandelion they are joined
+together by their sides and form a tube around the style. The corolla in
+both cases is all of one piece, but in the Dandelion it is as if the
+upper part of the corolla were split open one side and then made flat.
+Instead of a green calyx as in the Morning-Glory, the Dandelion has a
+number of delicate white bristles. And, finally, in the Morning-Glory
+both the calyx<span class="pagenum"><a name="Page_105" id="Page_105">[105]</a></span> and corolla grow out from below the ovary, while in the
+Dandelion its calyx of bristles and its corolla issue from above the
+ovary. So after all, you will see that corresponding organs are in both,
+and the difference between the two flowers is not so great as one might
+think at first.</p>
+
+<p>Let the different parts of the Dandelion be examined now more minutely.
+First take some of the bristles and examine them with one quarter inch
+power. They are not perfectly smooth, but are more or less saw-like on
+the edge. With the same power look at other parts of the flower; notice
+the hairiness of the stigmas, the pollen grains coming out of the
+anthers (some grains may be found on the stigmas) also the roughness of
+the ovary and the delicate ribs or veins in the corolla. Examine one of
+the seed-like fruits with one and one half inch power. It is a ripened
+ovary. Compare the fruit with the ovary of a flower. The nutlet has
+become hard, rougher and more strongly ribbed. The narrowed upper part
+of the ovary has become much elongated and the pappus is spread out like
+an inverted umbrella.</p>
+
+<p><span class="pagenum"><a name="Page_106" id="Page_106">[106]</a></span>Examine some bristles with one quarter inch power. They show the
+saw-like edges much more developed than in the younger bristles of the
+flower. We see throughout a beautiful adaptation of every part for
+fitting the little parachute to be carried long distances by the wind
+and finally to catch on some suitable place in which to sprout.</p>
+<p>&nbsp;</p>
+<p><span class="pagenum"><a name="Page_107" id="Page_107">[107]</a></span></p>
+<p class="center"><span class="big">XIV.&mdash;HOW TO SEE A BUMBLE BEE.</span></p>
+
+<p>You will first need to catch your Bumble Bee. A little chloroform poured
+on one will kill it instantly. Make a general examination at the outset
+of the insect. The outside of the body is horny and covered thickly with
+hairs. On the upper side the hairs are much more numerous than on the
+under side. The whole body is divided into three regions: the head,
+bearing the feelers and mouth-parts; a middle part (thorax) bearing the
+four wings and six legs; and a hind part (abdomen) armed with the sting.</p>
+
+<p>Remove the head and examine with one and one half inch power. At the
+sides are two prominent oval bodies (compound eyes) which seem to be
+crossed by five lines; near the top of the head, between the compound
+eyes, are three little shiny bead-like organs (simple eyes); starting
+from about the middle of the face are the two feelers (antenn�)<span class="pagenum"><a name="Page_108" id="Page_108">[108]</a></span> and at
+the lower part of the head are the mouth-parts. The sides, top and front
+of the head are all covered with hair.</p>
+
+<p>Examine one of the compound eyes with one fourth inch power. The surface
+is made up of innumerable little facets, something like a cut diamond.</p>
+
+<p>Cut off a piece of one of the compound eyes, remove some of the black
+pigment on the back and examine the piece in a drop of water. Each facet
+is a tiny hexagon. Some care is necessary to see them well.</p>
+
+<p>Remove an antenna and examine it with three fourths inch power. It is
+thickly covered with minute hairs which give it a velvety appearance.
+Count the joints. At the base is the longest joint; at the lower end of
+which is a little knob that fits into a socket in the head. The next
+joint is quite small while those beyond are much alike.</p>
+
+<p>Scrape the hairs from the face and examine the horny shell with three
+fourths inch power. The surface is full of little pits. In the upper
+part of the face there is a groove, in the middle of which<span class="pagenum"><a name="Page_109" id="Page_109">[109]</a></span> is one of
+the simple eyes. Just below the antenn� sockets is a groove which
+extends crosswise a short distance on either side and then bends
+downwards to the mouth. The portion of the face bounded by this groove
+is called the clypeus. At its lower part is hinged a little oblong piece
+(labium) which may be moved up and down with a needle.</p>
+
+<p>Melt a piece of sealing wax on the centre of a slip of glass (taking
+care not to break the glass by too sudden heating) and before the wax
+hardens press the head into it face downwards.</p>
+
+<p>Examine with one inch power. The hole near the top of the head shows the
+position of the neck. The portion of the head around this hole is
+destitute of hairs and is hollowed in, to make room for the rounded
+front part of the thorax. Below this one there is another cavity which
+contains a portion of the mouth parts when they are retracted. At each
+side of the mouth in front of the base of the sucking organs, are the
+two jaws (mandibles) each with a little tuft of hair on the outer side.
+The jaws move freely to and from each other, sideways instead of up and
+down as do the jaws of the higher<span class="pagenum"><a name="Page_110" id="Page_110">[110]</a></span> animals. The sucking apparatus
+consists of five pieces viz: two outermost pieces each tapering to a
+fine point, two, each of which ends in three little joints and one in
+the centre which projects beyond the others. It may be necessary to
+spread these out with the needle, to see them well.</p>
+
+<p>Separate the thorax from the rest of the body. Scrape off the hairs on
+the back. Two principal grooves extend across the back, one near the
+front and one near the hind margin. The thorax is composed of three
+divisions and these grooves show where they are joined together. The
+hind division bears the hind wings and the hind pair of legs; the middle
+division, much the largest division of the three, bears the fore wings
+and the middle pair of legs; and the foremost division is quite small
+and bears only the front pair of legs.</p>
+
+<p>Remove the wings of one side and examine in a drop of water with one and
+one half inch power. The wings consist of a shining transparent membrane
+strengthened by numerous horny veins running through it. Examine with
+one half inch power. The membrane is seen to be covered with<span class="pagenum"><a name="Page_111" id="Page_111">[111]</a></span> minute
+hairs and little dots. On the front edge of the hind wing a short
+distance from the outer end is a row of hooks. At a corresponding place
+on the hind edge of the fore wing there is a thickening or ridge. When
+flying, the hooks catch onto the ridge and thus the wings are held
+together and act as one large wing.</p>
+
+<p>Examine this grappling apparatus with one fourth inch power and with the
+needles hook the wings together and pull them apart. If you look through
+the magnifier while you do this you will get a good idea of the form of
+the ridge and of how the hooks catch onto it. Remove one of the
+forelegs, being sure that none remains attached to the body. Examine
+with one and one half inch power. The extremity is armed with two claws;
+then come four short joints followed by one about as long as the others
+together. All these make up the foot. The next joint above is the shank,
+then comes the thigh and then quite a small joint, the lower hip, and
+lastly attached to the body is the upper hip.</p>
+
+<p>Remove the last five joints of the foot (the claw part, and the other
+four joints) examine with one<span class="pagenum"><a name="Page_112" id="Page_112">[112]</a></span> third inch power. The claws have each a
+branch projecting from the inner edge. Between the claws is a little
+velvety pad. Each of the small joints is covered with short closely
+appressed hairs and from the lower end of each joint project several
+spines. Now examine the remaining long joint of the foot attached to the
+shank. At the upper end of the inner side is a deep semicircular notch,
+the upper portion of which is light colored. Beside the notch is a
+peculiarly shaped movable spine which projects from the lower end of the
+shank. This queer arrangement is what the bee uses to clean his feelers.
+The reader has probably seen the operation performed by a bee or a wasp.
+The leg is thrown over the feeler, the latter is grasped at that
+particular bend of the leg where the cleansing apparatus is situated and
+then drawn through from base to tip; and this is repeated several times
+with each feeler.</p>
+
+<p>Examine with one and one half inch power a leg from each of the other
+pairs and compare the corresponding parts. They differ chiefly in size
+and in the absence of the cleansing apparatus. You<span class="pagenum"><a name="Page_113" id="Page_113">[113]</a></span> cannot fail to
+admire the many beautiful forms of the different portions. On the outer
+side of the hind shank is a smooth flattish surface destitute of hairs,
+excepting a fringe of long ones at the margin. At this place may
+sometimes be found a sticky mass of pollen intended for bee-bread.
+Examine the abdomen with one and one half inch power. It is composed of
+several wings. If some of the hairs are scraped off this will be shown
+more clearly. From the hind extremity projects the sting.</p>
+
+<p>We have far from exhausted all the beautiful and interesting points in
+the make-up of a Bumble Bee, not even those that may be seen with the
+limited powers of a simple microscope; but probably enough has been said
+to show the reader that such things are well worthy of study and it is
+hoped that enough directions have been given to render future use of the
+instruments comparatively free from difficulty.</p>
+<p>&nbsp;</p>
+<p><span class="pagenum"><a name="Page_114" id="Page_114">[114]</a></span></p>
+
+<p class="center"><span class="big">XV.&mdash;SOME LITTLE THINGS TO SEE.</span></p>
+
+<p>There is no end to the beautiful and wonderful things one can see with
+the simple microscope. Only a few of the more attractive and easily
+obtained of these are now to be mentioned.</p>
+
+<p>To begin with, there are ever so many pretty flowers to look at. The
+asterworts, that is, such flowers as the daisy, aster, golden rod,
+dandelion and thistle, are particularly full of beauty. The blossoms are
+all made up of a number of little flowers as in the dandelion; but the
+shapes and colors and so forth, of the different kinds are exceedingly
+various. Some, such as the asters and daisies, have two kinds of flowers
+in the same blossom&mdash;flowers with strap-shaped corollas (like the
+dandelion's) are arranged along the margin of the blossom, while in the
+centre are little flowers with star-shaped corollas presenting a much
+different<span class="pagenum"><a name="Page_115" id="Page_115">[115]</a></span> appearance. Flowers of many of the Parsley Family, for
+example wild carrot, wild parsnip and caraway, are quite odd. Very
+pretty flowers are found among the grasses, sedges and common weeds. The
+different trees as they bloom in spring&mdash;the maples, elms, willows,
+poplars, sassafras and hosts of others&mdash;all have flowers that are
+perfectly lovely. Most of these flowers need to be picked to pieces
+under the magnifier to show up their full beauty. The parts of flowers,
+both small and large ones, deserve attention. Frequently one meets with
+remarkable forms.</p>
+
+<p>Seeds are highly interesting. They are often handsomely marked with
+series of pits or projections, grooves or ridges. One meets with many
+curious appendages by means of which the seeds are carried off and sown
+at a distance from the plant. Some, like the dandelion, have a parachute
+attachment; others have wings to catch the wind, and others still are
+covered with hooked spines whereby they become attached to the fur of
+animals, there to remain until brushed off onto the ground.</p>
+
+<p><span class="pagenum"><a name="Page_116" id="Page_116">[116]</a></span>Leaves and stems sometimes have on them beautiful hairs and oil-glands.
+The wooly covering of common mullein, for example, is made up of
+innumerable slender-branched hairs. These show best when a piece of the
+leaf broken off is looked at edgewise.</p>
+
+<p>If you examine the fruit-dots on the backs of the different kinds of
+ferns you will be surprised to find how pretty they are and of how many
+different shapes. Sometimes the fruit is not borne on the back of the
+leaf but forms little clusters by themselves, which are sometimes at the
+end of the fern, sometimes in the middle, sometimes on a separate stalk.</p>
+
+<p>Mosses, lichens and sea-weeds are well worth looking at.</p>
+
+<p>Early in the summer an exquisite little fungus called "Cluster cups" may
+be found on the underside of barberry leaves. Hawthorn and other plants
+have handsome fungi on them later in the season.</p>
+
+<p>By observing closely while out in the fields or woods, one sees hovering
+about in swarms, myriads<span class="pagenum"><a name="Page_117" id="Page_117">[117]</a></span> of tiny insects. Under the lens some of them
+are very odd, others very beautiful. The easiest way to catch these
+little midgets, is to wet the palm of the hand and then sweep it among
+them, or in the same way use a piece of sticky paper.</p>
+
+<p>The study of the different parts of insects is one of the most
+fascinating of the many uses of the Simple microscope. Although all
+insects are made up on the same general plan and corresponding organs
+occur in most of them, there is an endless variety in the forms under
+which we see the different organs and the uses to which they are put.</p>
+
+<p>Take for example the antenn�. In the grasshopper it is long and
+threadlike; in the butterflies always ending in a knob; in moths always
+tapering to a point, although sometimes threadlike and sometimes much
+branched, forming a beautiful plume; in the beetles, sometimes fan-like,
+sometimes like a comb; and in other insects assuming still other forms.
+Insects' eyes are often colored beautifully. A horse-fly's eyes are
+striped. Butterflies' eyes have usually a soft liquid coloring, and
+moths' eyes in the dark shine like little fiery beads.</p>
+
+<p><span class="pagenum"><a name="Page_118" id="Page_118">[118]</a></span>The mouths of insects, such as beetles, grasshoppers and dragon flies,
+have strong jaws for biting; flies, bugs, moths and butterflies, have
+the mouth-parts transformed into sucking organs, while bees, wasps and
+the like have both sucking organs for honey, and biting organs for
+leaf-cutting, wood-tearing etc. as we saw was the case in the Bumble
+Bee.</p>
+
+<p>Butterflies' wings and moths' wings are covered with little scales of a
+variety of shapes. These should be examined attached to the wing to show
+their arrangement which is like that of shingles on a roof; but to show
+their form they should be looked at when brushed from the wing onto a
+piece of glass. Many other peculiarities may be noticed in the wings of
+other kinds of insects.</p>
+
+<p>Legs, the same as the other organs, have various forms, markings and
+appendages, and so it is with the abdomen and its stings or its
+egg-laying apparatus.</p>
+
+<p>The hairs of "Wooly Bears" and caterpillars of that kind are peculiarly
+branched.</p>
+
+<p>The four hind pairs of feet in caterpillars are<span class="pagenum"><a name="Page_119" id="Page_119">[119]</a></span> armed each with a row
+of little hooks which are used in walking to get a firm hold. The larger
+caterpillars show the hooks best.</p>
+
+<p>Sometimes you will find pretty insect eggs on the underside of leaves or
+on stems, and also little silken cocoons in similar places. If you are
+near a pond-hole, or an old hogshead that collects rain water, you can
+find a good many little animals, some of them very frisky&mdash;young
+mosquitoes or "polywogs," water-fleas, cyclops, little worms, young
+dragon-flies and lots of others. When you go to collect them take a
+small wide-mouth bottle and, having found a place where there is what
+you want, lower your bottle, mouth down, in the midst of them and when
+it is well under water turn the mouth upwards. A good many of the
+animals will run in with the water. If the first time you do not get
+what you want, the second time you may. When you want to examine them at
+home you can fish them out with a glass tube and put them in a watch
+crystal or on the glass stage of the microscope. In using the tube take
+it between the thumb and middle and third fingers, and close the top
+with<span class="pagenum"><a name="Page_120" id="Page_120">[120]</a></span> your first finger; then put the lower end of the tube in the water
+close to the thing you want to catch; now lift your first finger quickly
+and the water will run in the lower end of the tube carrying with it
+your little squirmer, unless he has been too quick for you. Close the
+top of your tube again and the water will not run out when you remove
+the tube, until you lift your finger. Sometimes it takes a good deal of
+patience and skill to catch the more agile of the little water animals.
+Glass tubes are sold in drug stores for five or ten cents.</p>
+
+<p>If you begin by examining the objects already spoken of, you will while
+looking for these be continually discovering for yourselves new objects
+possessing new beauties and will soon see that not half the interesting
+things you can find have been ever hinted at.</p>
+
+<p>The way to find out about all these things is to go out into the fields
+and woods, and form the habit of observing closely what is around you.
+Carry your magnifier along and look at this flower, that fern, this
+insect, that moss, with different powers of the magnifier; and when you
+come<span class="pagenum"><a name="Page_121" id="Page_121">[121]</a></span> across any objects worthy of a more careful examination carry them
+home and examine them systematically with Simple microscope, needles,
+knife, and so forth. Insects may be kept well in alcohol until winter,
+and then careful studies may be made of them.</p>
+
+<p>When using the magnifier in the field, hold it in such a way that the
+smallest lens will be nearest the object when the lenses are combined
+and be careful not to shade the object with the hand or the hat brim.
+Just enough light should fall on the object to make its examination
+comfortable for the eyes. If you rest the hand holding the magnifier on
+the hand that holds the object, both lens and object can be held much
+steadier. When commencing to examine an object it is best to have the
+three lenses spread apart, for in this way you can use first the lowest
+power then those higher and finally, if you wish to, the three lenses
+combined. The dissecting forceps are very handy to have in the field,
+both for picking up anything too small for the fingers and for holding
+an object to be examined.</p>
+
+<p><span class="pagenum"><a name="Page_122" id="Page_122">[122]</a></span>A collection of some of these little things preserved and ready for
+examination adds greatly to the pleasures of studying them. Of course
+all the different kinds of objects cannot be preserved so as to show
+their full beauty, but many can be and the following directions will
+tell how to make a very good collection:</p>
+
+<p>Seeds, fern-fruit, insects and other opaque objects like these may be
+mounted on pasteboard slides. One of these slides consists simply of a
+stout piece of pasteboard, having a hole cut in the centre and a piece
+of thick paper or cardboard glued on the under side. The object is
+attached to the cardboard at the bottom of the hole.</p>
+
+<p>It is best to make a number of these slides at a time. Having procured
+some quite thick pasteboard, from old paper boxes, rule lines on the
+surface dividing it up into spaces three inches long by one inch wide.
+In the centre of each space cut out a hole about half an inch in
+diameter. A sharp knife will make a neat square hole or a good round one
+may be made with a gun-wad punch. This done, the spaces may be cut apart
+with a sharp knife and<span class="pagenum"><a name="Page_123" id="Page_123">[123]</a></span> ruler, along the lines already drawn. Pieces of
+cardboard for the backs should be cut a trifle larger than the
+pasteboard portion of the slide; after they are glued onto the latter
+they may be trimmed down neatly with a pair of scissors. Glue or
+mucilage containing glycerine (in the proportion of one or two
+teaspoonfuls to an ordinary bottle of mucilage) is the best thing to use
+for sticking on the backs. While the slides are drying they should be
+either under a weight or in a clamp screwed up tightly, so as to prevent
+their twisting out of shape. The mucilage may be prevented from being
+squeezed in round the edges of the hole, by taking care when putting it
+on not to have it come too near the hole. One or two coats of India Ink
+may be painted on the middle of some of the pieces of cardboard, either
+before or after they are put onto the slides; and thus a black
+background may be obtained for the lighter-colored opaque objects. Many
+of the objects will however show best on a white background.</p>
+
+<p>When you have the slides all made, nothing more is needed to mount an
+object, than simply to<span class="pagenum"><a name="Page_124" id="Page_124">[124]</a></span> attach it to the bottom of the hole with a
+little mucilage and glycerine, or something of that sort, and finally to
+write the name of the object on the front part of the slide, and on the
+back any desirable notes. A good way to mount such objects as fine seeds
+is to put them in the hole loosely and then cover them with a piece of
+mica such as will be spoken of presently.</p>
+
+<p>Objects which are to be examined by the light shining through them, for
+example a bee's wing or a butterfly's scales, must be mounted on glass
+slides.</p>
+
+<p>A glass slide three inches by one is taken, on the centre is placed the
+object; over this is laid a thin piece of clear mica three fourths of an
+inch square, and this is attached to the glass by pasting narrow strips
+of tissue paper around the edges of the cover, partly on the cover and
+partly on the slide. Finally the slide is covered with some pretty
+colored paper and labeled.</p>
+
+<p>Two pieces of paper are needed to cover each slide. One for the under
+part is cut about one and one half by three and one half inches, with a
+hole in the centre (round or square). This piece<span class="pagenum"><a name="Page_125" id="Page_125">[125]</a></span> is first pasted on,
+the corners being cut and the edges brought over onto the front. The
+upper piece, which has a hole in the centre similar to that in the lower
+piece, and is cut a trifle larger than the three by one inch slide, is
+next pasted on so that the hole will correspond with the one below. The
+upper piece of paper is now trimmed down to the slide and the label
+attached. Window glass will answer for the slides and you can get any
+glazier to cut up a piece for you into the right-sized slips. Mica can
+be bought at a stove store, in sheets which may be cut up into three
+fourths of an inch squares with a pair of scissors. The mica should be
+as clear as you can get it. You will find it handy to have some tissue
+paper all mucilaged like postage stamps and cut up in strips the right
+size ready to use. The same may be said of the colored paper covers and
+the labels.</p>
+
+<p>The dust may be excluded from the uncovered opaque objects by keeping
+the mounted slides in small groups, held together by elastic bands. This
+will also serve to classify them so that all the insects will be
+together, all the seeds, and so on; and<span class="pagenum"><a name="Page_126" id="Page_126">[126]</a></span> the transparent slides may also
+be treated in the same way. When an elastic band wears out, it is no
+great trouble to replace it.</p>
+
+<p>In working with the Simple microscope there is a fine chance to display
+ingenuity, not only in making the instruments and mounting the objects
+but in discovering new things to look at and in seeing how much can be
+found out about those things which are the most common.</p>
+
+
+
+<hr style="width: 65%;" />
+<p class="center"><span class="huge">FOOTNOTE:</span></p>
+
+<div class="footnote"><p><a name="Footnote_A_1" id="Footnote_A_1"></a><a href="#FNanchor_A_1"><span class="label">[A]</span></a> In these directions "1<sup>1</sup>&frasl;<sub>2</sub> <i>in.</i> power" means a lens having
+a focus of 1<sup>1</sup>&frasl;<sub>2</sub> inches; "<sup>1</sup>&frasl;<sub>2</sub> <i>in.</i> power" means a lens or combination
+of lenses having a focus of <sup>1</sup>&frasl;<sub>2</sub> inch; and so on. All the different
+powers mentioned in the directions may be obtained in the small-sized
+3-lens, bellows form magnifier, either by using the lenses singly or
+combined in different ways. The magnifying power of any single lens or
+simple combination is easily found by dividing 10, by the focus in
+inches. Thus the magnifying power of a <sup>1</sup>&frasl;<sub>2</sub> <i>in.</i> lens is found in this
+way: 10&divide;<sup>1</sup>&frasl;<sub>2</sub> = 10&times;<sup>2</sup>&frasl;<sub>1</sub> &nbsp; 20. The lens magnifies therefore 20 diameters <i>i.
+e.</i> makes an object appear twenty times as long and twenty times as
+broad as it is.</p></div>
+
+
+
+<hr style="width: 65%;" />
+<p class="center"><span class="huge">TRANSCRIBER'S NOTES:</span></p>
+
+<p>Inconsistencies in hyphenation have been retained from the original.</p>
+
+<p>Obvious typographical errors have been corrected as follows:</p>
+
+<p>
+<span style="margin-left: 1em;">Page &nbsp; &nbsp; 8: hundreth changed to hundredth</span><br />
+<span style="margin-left: 1em;">Page &nbsp; 11: iustrument changed to instrument</span><br />
+<span style="margin-left: 1em;">Page &nbsp; 15: diferent changed to different</span><br />
+<span style="margin-left: 1em;">Page &nbsp; 17: he changed to the</span><br />
+<span style="margin-left: 1em;">Page &nbsp; 20: wil changed to will</span><br />
+<span style="margin-left: 1em;">Page &nbsp; 44: or changed to of</span><br />
+<span style="margin-left: 1em;">Page &nbsp; 72: staightened changed to straightened</span><br />
+<span style="margin-left: 1em;">Page &nbsp; 86: DIFFRENT changed to DIFFERENT</span><br />
+<span style="margin-left: 1em;">Page 125: fouths changed to fourths</span><br />
+</p>
+
+
+
+
+
+
+
+
+<pre>
+
+
+
+
+
+End of the Project Gutenberg EBook of Through a Microscope, by 
+Samuel Wells and Mary Treat and Frederick Leroy Sargent
+
+*** END OF THIS PROJECT GUTENBERG EBOOK THROUGH A MICROSCOPE ***
+
+***** This file should be named 38428-h.htm or 38428-h.zip *****
+This and all associated files of various formats will be found in:
+        https://www.gutenberg.org/3/8/4/2/38428/
+
+Produced by Chris Curnow, David E. Brown and the Online
+Distributed Proofreading Team at https://www.pgdp.net (This
+file was produced from images generously made available
+by The Internet Archive)
+
+
+Updated editions will replace the previous one--the old editions
+will be renamed.
+
+Creating the works from public domain print editions means that no
+one owns a United States copyright in these works, so the Foundation
+(and you!) can copy and distribute it in the United States without
+permission and without paying copyright royalties.  Special rules,
+set forth in the General Terms of Use part of this license, apply to
+copying and distributing Project Gutenberg-tm electronic works to
+protect the PROJECT GUTENBERG-tm concept and trademark.  Project
+Gutenberg is a registered trademark, and may not be used if you
+charge for the eBooks, unless you receive specific permission.  If you
+do not charge anything for copies of this eBook, complying with the
+rules is very easy.  You may use this eBook for nearly any purpose
+such as creation of derivative works, reports, performances and
+research.  They may be modified and printed and given away--you may do
+practically ANYTHING with public domain eBooks.  Redistribution is
+subject to the trademark license, especially commercial
+redistribution.
+
+
+
+*** START: FULL LICENSE ***
+
+THE FULL PROJECT GUTENBERG LICENSE
+PLEASE READ THIS BEFORE YOU DISTRIBUTE OR USE THIS WORK
+
+To protect the Project Gutenberg-tm mission of promoting the free
+distribution of electronic works, by using or distributing this work
+(or any other work associated in any way with the phrase "Project
+Gutenberg"), you agree to comply with all the terms of the Full Project
+Gutenberg-tm License (available with this file or online at
+https://gutenberg.org/license).
+
+
+Section 1.  General Terms of Use and Redistributing Project Gutenberg-tm
+electronic works
+
+1.A.  By reading or using any part of this Project Gutenberg-tm
+electronic work, you indicate that you have read, understand, agree to
+and accept all the terms of this license and intellectual property
+(trademark/copyright) agreement.  If you do not agree to abide by all
+the terms of this agreement, you must cease using and return or destroy
+all copies of Project Gutenberg-tm electronic works in your possession.
+If you paid a fee for obtaining a copy of or access to a Project
+Gutenberg-tm electronic work and you do not agree to be bound by the
+terms of this agreement, you may obtain a refund from the person or
+entity to whom you paid the fee as set forth in paragraph 1.E.8.
+
+1.B.  "Project Gutenberg" is a registered trademark.  It may only be
+used on or associated in any way with an electronic work by people who
+agree to be bound by the terms of this agreement.  There are a few
+things that you can do with most Project Gutenberg-tm electronic works
+even without complying with the full terms of this agreement.  See
+paragraph 1.C below.  There are a lot of things you can do with Project
+Gutenberg-tm electronic works if you follow the terms of this agreement
+and help preserve free future access to Project Gutenberg-tm electronic
+works.  See paragraph 1.E below.
+
+1.C.  The Project Gutenberg Literary Archive Foundation ("the Foundation"
+or PGLAF), owns a compilation copyright in the collection of Project
+Gutenberg-tm electronic works.  Nearly all the individual works in the
+collection are in the public domain in the United States.  If an
+individual work is in the public domain in the United States and you are
+located in the United States, we do not claim a right to prevent you from
+copying, distributing, performing, displaying or creating derivative
+works based on the work as long as all references to Project Gutenberg
+are removed.  Of course, we hope that you will support the Project
+Gutenberg-tm mission of promoting free access to electronic works by
+freely sharing Project Gutenberg-tm works in compliance with the terms of
+this agreement for keeping the Project Gutenberg-tm name associated with
+the work.  You can easily comply with the terms of this agreement by
+keeping this work in the same format with its attached full Project
+Gutenberg-tm License when you share it without charge with others.
+
+1.D.  The copyright laws of the place where you are located also govern
+what you can do with this work.  Copyright laws in most countries are in
+a constant state of change.  If you are outside the United States, check
+the laws of your country in addition to the terms of this agreement
+before downloading, copying, displaying, performing, distributing or
+creating derivative works based on this work or any other Project
+Gutenberg-tm work.  The Foundation makes no representations concerning
+the copyright status of any work in any country outside the United
+States.
+
+1.E.  Unless you have removed all references to Project Gutenberg:
+
+1.E.1.  The following sentence, with active links to, or other immediate
+access to, the full Project Gutenberg-tm License must appear prominently
+whenever any copy of a Project Gutenberg-tm work (any work on which the
+phrase "Project Gutenberg" appears, or with which the phrase "Project
+Gutenberg" is associated) is accessed, displayed, performed, viewed,
+copied or distributed:
+
+This eBook is for the use of anyone anywhere at no cost and with
+almost no restrictions whatsoever.  You may copy it, give it away or
+re-use it under the terms of the Project Gutenberg License included
+with this eBook or online at www.gutenberg.org
+
+1.E.2.  If an individual Project Gutenberg-tm electronic work is derived
+from the public domain (does not contain a notice indicating that it is
+posted with permission of the copyright holder), the work can be copied
+and distributed to anyone in the United States without paying any fees
+or charges.  If you are redistributing or providing access to a work
+with the phrase "Project Gutenberg" associated with or appearing on the
+work, you must comply either with the requirements of paragraphs 1.E.1
+through 1.E.7 or obtain permission for the use of the work and the
+Project Gutenberg-tm trademark as set forth in paragraphs 1.E.8 or
+1.E.9.
+
+1.E.3.  If an individual Project Gutenberg-tm electronic work is posted
+with the permission of the copyright holder, your use and distribution
+must comply with both paragraphs 1.E.1 through 1.E.7 and any additional
+terms imposed by the copyright holder.  Additional terms will be linked
+to the Project Gutenberg-tm License for all works posted with the
+permission of the copyright holder found at the beginning of this work.
+
+1.E.4.  Do not unlink or detach or remove the full Project Gutenberg-tm
+License terms from this work, or any files containing a part of this
+work or any other work associated with Project Gutenberg-tm.
+
+1.E.5.  Do not copy, display, perform, distribute or redistribute this
+electronic work, or any part of this electronic work, without
+prominently displaying the sentence set forth in paragraph 1.E.1 with
+active links or immediate access to the full terms of the Project
+Gutenberg-tm License.
+
+1.E.6.  You may convert to and distribute this work in any binary,
+compressed, marked up, nonproprietary or proprietary form, including any
+word processing or hypertext form.  However, if you provide access to or
+distribute copies of a Project Gutenberg-tm work in a format other than
+"Plain Vanilla ASCII" or other format used in the official version
+posted on the official Project Gutenberg-tm web site (www.gutenberg.org),
+you must, at no additional cost, fee or expense to the user, provide a
+copy, a means of exporting a copy, or a means of obtaining a copy upon
+request, of the work in its original "Plain Vanilla ASCII" or other
+form.  Any alternate format must include the full Project Gutenberg-tm
+License as specified in paragraph 1.E.1.
+
+1.E.7.  Do not charge a fee for access to, viewing, displaying,
+performing, copying or distributing any Project Gutenberg-tm works
+unless you comply with paragraph 1.E.8 or 1.E.9.
+
+1.E.8.  You may charge a reasonable fee for copies of or providing
+access to or distributing Project Gutenberg-tm electronic works provided
+that
+
+- You pay a royalty fee of 20% of the gross profits you derive from
+     the use of Project Gutenberg-tm works calculated using the method
+     you already use to calculate your applicable taxes.  The fee is
+     owed to the owner of the Project Gutenberg-tm trademark, but he
+     has agreed to donate royalties under this paragraph to the
+     Project Gutenberg Literary Archive Foundation.  Royalty payments
+     must be paid within 60 days following each date on which you
+     prepare (or are legally required to prepare) your periodic tax
+     returns.  Royalty payments should be clearly marked as such and
+     sent to the Project Gutenberg Literary Archive Foundation at the
+     address specified in Section 4, "Information about donations to
+     the Project Gutenberg Literary Archive Foundation."
+
+- You provide a full refund of any money paid by a user who notifies
+     you in writing (or by e-mail) within 30 days of receipt that s/he
+     does not agree to the terms of the full Project Gutenberg-tm
+     License.  You must require such a user to return or
+     destroy all copies of the works possessed in a physical medium
+     and discontinue all use of and all access to other copies of
+     Project Gutenberg-tm works.
+
+- You provide, in accordance with paragraph 1.F.3, a full refund of any
+     money paid for a work or a replacement copy, if a defect in the
+     electronic work is discovered and reported to you within 90 days
+     of receipt of the work.
+
+- You comply with all other terms of this agreement for free
+     distribution of Project Gutenberg-tm works.
+
+1.E.9.  If you wish to charge a fee or distribute a Project Gutenberg-tm
+electronic work or group of works on different terms than are set
+forth in this agreement, you must obtain permission in writing from
+both the Project Gutenberg Literary Archive Foundation and Michael
+Hart, the owner of the Project Gutenberg-tm trademark.  Contact the
+Foundation as set forth in Section 3 below.
+
+1.F.
+
+1.F.1.  Project Gutenberg volunteers and employees expend considerable
+effort to identify, do copyright research on, transcribe and proofread
+public domain works in creating the Project Gutenberg-tm
+collection.  Despite these efforts, Project Gutenberg-tm electronic
+works, and the medium on which they may be stored, may contain
+"Defects," such as, but not limited to, incomplete, inaccurate or
+corrupt data, transcription errors, a copyright or other intellectual
+property infringement, a defective or damaged disk or other medium, a
+computer virus, or computer codes that damage or cannot be read by
+your equipment.
+
+1.F.2.  LIMITED WARRANTY, DISCLAIMER OF DAMAGES - Except for the "Right
+of Replacement or Refund" described in paragraph 1.F.3, the Project
+Gutenberg Literary Archive Foundation, the owner of the Project
+Gutenberg-tm trademark, and any other party distributing a Project
+Gutenberg-tm electronic work under this agreement, disclaim all
+liability to you for damages, costs and expenses, including legal
+fees.  YOU AGREE THAT YOU HAVE NO REMEDIES FOR NEGLIGENCE, STRICT
+LIABILITY, BREACH OF WARRANTY OR BREACH OF CONTRACT EXCEPT THOSE
+PROVIDED IN PARAGRAPH 1.F.3.  YOU AGREE THAT THE FOUNDATION, THE
+TRADEMARK OWNER, AND ANY DISTRIBUTOR UNDER THIS AGREEMENT WILL NOT BE
+LIABLE TO YOU FOR ACTUAL, DIRECT, INDIRECT, CONSEQUENTIAL, PUNITIVE OR
+INCIDENTAL DAMAGES EVEN IF YOU GIVE NOTICE OF THE POSSIBILITY OF SUCH
+DAMAGE.
+
+1.F.3.  LIMITED RIGHT OF REPLACEMENT OR REFUND - If you discover a
+defect in this electronic work within 90 days of receiving it, you can
+receive a refund of the money (if any) you paid for it by sending a
+written explanation to the person you received the work from.  If you
+received the work on a physical medium, you must return the medium with
+your written explanation.  The person or entity that provided you with
+the defective work may elect to provide a replacement copy in lieu of a
+refund.  If you received the work electronically, the person or entity
+providing it to you may choose to give you a second opportunity to
+receive the work electronically in lieu of a refund.  If the second copy
+is also defective, you may demand a refund in writing without further
+opportunities to fix the problem.
+
+1.F.4.  Except for the limited right of replacement or refund set forth
+in paragraph 1.F.3, this work is provided to you 'AS-IS' WITH NO OTHER
+WARRANTIES OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO
+WARRANTIES OF MERCHANTIBILITY OR FITNESS FOR ANY PURPOSE.
+
+1.F.5.  Some states do not allow disclaimers of certain implied
+warranties or the exclusion or limitation of certain types of damages.
+If any disclaimer or limitation set forth in this agreement violates the
+law of the state applicable to this agreement, the agreement shall be
+interpreted to make the maximum disclaimer or limitation permitted by
+the applicable state law.  The invalidity or unenforceability of any
+provision of this agreement shall not void the remaining provisions.
+
+1.F.6.  INDEMNITY - You agree to indemnify and hold the Foundation, the
+trademark owner, any agent or employee of the Foundation, anyone
+providing copies of Project Gutenberg-tm electronic works in accordance
+with this agreement, and any volunteers associated with the production,
+promotion and distribution of Project Gutenberg-tm electronic works,
+harmless from all liability, costs and expenses, including legal fees,
+that arise directly or indirectly from any of the following which you do
+or cause to occur: (a) distribution of this or any Project Gutenberg-tm
+work, (b) alteration, modification, or additions or deletions to any
+Project Gutenberg-tm work, and (c) any Defect you cause.
+
+
+Section  2.  Information about the Mission of Project Gutenberg-tm
+
+Project Gutenberg-tm is synonymous with the free distribution of
+electronic works in formats readable by the widest variety of computers
+including obsolete, old, middle-aged and new computers.  It exists
+because of the efforts of hundreds of volunteers and donations from
+people in all walks of life.
+
+Volunteers and financial support to provide volunteers with the
+assistance they need are critical to reaching Project Gutenberg-tm's
+goals and ensuring that the Project Gutenberg-tm collection will
+remain freely available for generations to come.  In 2001, the Project
+Gutenberg Literary Archive Foundation was created to provide a secure
+and permanent future for Project Gutenberg-tm and future generations.
+To learn more about the Project Gutenberg Literary Archive Foundation
+and how your efforts and donations can help, see Sections 3 and 4
+and the Foundation web page at https://www.pglaf.org.
+
+
+Section 3.  Information about the Project Gutenberg Literary Archive
+Foundation
+
+The Project Gutenberg Literary Archive Foundation is a non profit
+501(c)(3) educational corporation organized under the laws of the
+state of Mississippi and granted tax exempt status by the Internal
+Revenue Service.  The Foundation's EIN or federal tax identification
+number is 64-6221541.  Its 501(c)(3) letter is posted at
+https://pglaf.org/fundraising.  Contributions to the Project Gutenberg
+Literary Archive Foundation are tax deductible to the full extent
+permitted by U.S. federal laws and your state's laws.
+
+The Foundation's principal office is located at 4557 Melan Dr. S.
+Fairbanks, AK, 99712., but its volunteers and employees are scattered
+throughout numerous locations.  Its business office is located at
+809 North 1500 West, Salt Lake City, UT 84116, (801) 596-1887, email
+business@pglaf.org.  Email contact links and up to date contact
+information can be found at the Foundation's web site and official
+page at https://pglaf.org
+
+For additional contact information:
+     Dr. Gregory B. Newby
+     Chief Executive and Director
+     gbnewby@pglaf.org
+
+
+Section 4.  Information about Donations to the Project Gutenberg
+Literary Archive Foundation
+
+Project Gutenberg-tm depends upon and cannot survive without wide
+spread public support and donations to carry out its mission of
+increasing the number of public domain and licensed works that can be
+freely distributed in machine readable form accessible by the widest
+array of equipment including outdated equipment.  Many small donations
+($1 to $5,000) are particularly important to maintaining tax exempt
+status with the IRS.
+
+The Foundation is committed to complying with the laws regulating
+charities and charitable donations in all 50 states of the United
+States.  Compliance requirements are not uniform and it takes a
+considerable effort, much paperwork and many fees to meet and keep up
+with these requirements.  We do not solicit donations in locations
+where we have not received written confirmation of compliance.  To
+SEND DONATIONS or determine the status of compliance for any
+particular state visit https://pglaf.org
+
+While we cannot and do not solicit contributions from states where we
+have not met the solicitation requirements, we know of no prohibition
+against accepting unsolicited donations from donors in such states who
+approach us with offers to donate.
+
+International donations are gratefully accepted, but we cannot make
+any statements concerning tax treatment of donations received from
+outside the United States.  U.S. laws alone swamp our small staff.
+
+Please check the Project Gutenberg Web pages for current donation
+methods and addresses.  Donations are accepted in a number of other
+ways including including checks, online payments and credit card
+donations.  To donate, please visit: https://pglaf.org/donate
+
+
+Section 5.  General Information About Project Gutenberg-tm electronic
+works.
+
+Professor Michael S. Hart was the originator of the Project Gutenberg-tm
+concept of a library of electronic works that could be freely shared
+with anyone.  For thirty years, he produced and distributed Project
+Gutenberg-tm eBooks with only a loose network of volunteer support.
+
+
+Project Gutenberg-tm eBooks are often created from several printed
+editions, all of which are confirmed as Public Domain in the U.S.
+unless a copyright notice is included.  Thus, we do not necessarily
+keep eBooks in compliance with any particular paper edition.
+
+
+Most people start at our Web site which has the main PG search facility:
+
+     https://www.gutenberg.org
+
+This Web site includes information about Project Gutenberg-tm,
+including how to make donations to the Project Gutenberg Literary
+Archive Foundation, how to help produce our new eBooks, and how to
+subscribe to our email newsletter to hear about new eBooks.
+
+
+</pre>
+
+</body>
+</html>
diff --git a/38428-h/images/i_008.png b/38428-h/images/i_008.png
new file mode 100644
index 0000000..27ac43e
--- /dev/null
+++ b/38428-h/images/i_008.png
diff --git a/38428-h/images/i_012.png b/38428-h/images/i_012.png
new file mode 100644
index 0000000..cca463f
--- /dev/null
+++ b/38428-h/images/i_012.png
diff --git a/38428-h/images/i_014.png b/38428-h/images/i_014.png
new file mode 100644
index 0000000..78de19b
--- /dev/null
+++ b/38428-h/images/i_014.png
diff --git a/38428-h/images/i_015.png b/38428-h/images/i_015.png
new file mode 100644
index 0000000..309f5c4
--- /dev/null
+++ b/38428-h/images/i_015.png
diff --git a/38428-h/images/i_016a.png b/38428-h/images/i_016a.png
new file mode 100644
index 0000000..52a3937
--- /dev/null
+++ b/38428-h/images/i_016a.png
diff --git a/38428-h/images/i_016b.png b/38428-h/images/i_016b.png
new file mode 100644
index 0000000..805e380
--- /dev/null
+++ b/38428-h/images/i_016b.png
diff --git a/38428-h/images/i_017a.png b/38428-h/images/i_017a.png
new file mode 100644
index 0000000..5b9bd8d
--- /dev/null
+++ b/38428-h/images/i_017a.png
diff --git a/38428-h/images/i_017b.png b/38428-h/images/i_017b.png
new file mode 100644
index 0000000..3185164
--- /dev/null
+++ b/38428-h/images/i_017b.png
diff --git a/38428-h/images/i_018.png b/38428-h/images/i_018.png
new file mode 100644
index 0000000..a61608a
--- /dev/null
+++ b/38428-h/images/i_018.png
diff --git a/38428-h/images/i_020.png b/38428-h/images/i_020.png
new file mode 100644
index 0000000..a2292eb
--- /dev/null
+++ b/38428-h/images/i_020.png
diff --git a/38428-h/images/i_021.png b/38428-h/images/i_021.png
new file mode 100644
index 0000000..622be56
--- /dev/null
+++ b/38428-h/images/i_021.png
diff --git a/38428-h/images/i_022a.png b/38428-h/images/i_022a.png
new file mode 100644
index 0000000..bf06403
--- /dev/null
+++ b/38428-h/images/i_022a.png
diff --git a/38428-h/images/i_022b.png b/38428-h/images/i_022b.png
new file mode 100644
index 0000000..fb72c6c
--- /dev/null
+++ b/38428-h/images/i_022b.png
diff --git a/38428-h/images/i_023.png b/38428-h/images/i_023.png
new file mode 100644
index 0000000..b88b769
--- /dev/null
+++ b/38428-h/images/i_023.png
diff --git a/38428-h/images/i_024.png b/38428-h/images/i_024.png
new file mode 100644
index 0000000..aa8ca33
--- /dev/null
+++ b/38428-h/images/i_024.png
diff --git a/38428-h/images/i_025.png b/38428-h/images/i_025.png
new file mode 100644
index 0000000..f5902cc
--- /dev/null
+++ b/38428-h/images/i_025.png
diff --git a/38428-h/images/i_027.png b/38428-h/images/i_027.png
new file mode 100644
index 0000000..bb31754
--- /dev/null
+++ b/38428-h/images/i_027.png
diff --git a/38428-h/images/i_028.png b/38428-h/images/i_028.png
new file mode 100644
index 0000000..093d2e6
--- /dev/null
+++ b/38428-h/images/i_028.png
diff --git a/38428-h/images/i_029.png b/38428-h/images/i_029.png
new file mode 100644
index 0000000..6559cfd
--- /dev/null
+++ b/38428-h/images/i_029.png
diff --git a/38428-h/images/i_030.png b/38428-h/images/i_030.png
new file mode 100644
index 0000000..5047368
--- /dev/null
+++ b/38428-h/images/i_030.png
diff --git a/38428-h/images/i_032.png b/38428-h/images/i_032.png
new file mode 100644
index 0000000..3fe24bc
--- /dev/null
+++ b/38428-h/images/i_032.png
diff --git a/38428-h/images/i_034.png b/38428-h/images/i_034.png
new file mode 100644
index 0000000..54af8aa
--- /dev/null
+++ b/38428-h/images/i_034.png
diff --git a/38428-h/images/i_035a.png b/38428-h/images/i_035a.png
new file mode 100644
index 0000000..26ecadb
--- /dev/null
+++ b/38428-h/images/i_035a.png
diff --git a/38428-h/images/i_035b.png b/38428-h/images/i_035b.png
new file mode 100644
index 0000000..31c0ccb
--- /dev/null
+++ b/38428-h/images/i_035b.png
diff --git a/38428-h/images/i_036.png b/38428-h/images/i_036.png
new file mode 100644
index 0000000..c9a4da3
--- /dev/null
+++ b/38428-h/images/i_036.png
diff --git a/38428-h/images/i_038.png b/38428-h/images/i_038.png
new file mode 100644
index 0000000..b6c2b95
--- /dev/null
+++ b/38428-h/images/i_038.png
diff --git a/38428-h/images/i_040.png b/38428-h/images/i_040.png
new file mode 100644
index 0000000..a3aa218
--- /dev/null
+++ b/38428-h/images/i_040.png
diff --git a/38428-h/images/i_041a.png b/38428-h/images/i_041a.png
new file mode 100644
index 0000000..af42b51
--- /dev/null
+++ b/38428-h/images/i_041a.png
diff --git a/38428-h/images/i_041b.png b/38428-h/images/i_041b.png
new file mode 100644
index 0000000..d862b3c
--- /dev/null
+++ b/38428-h/images/i_041b.png
diff --git a/38428-h/images/i_042.png b/38428-h/images/i_042.png
new file mode 100644
index 0000000..21d6f9b
--- /dev/null
+++ b/38428-h/images/i_042.png
diff --git a/38428-h/images/i_044.png b/38428-h/images/i_044.png
new file mode 100644
index 0000000..70f8356
--- /dev/null
+++ b/38428-h/images/i_044.png
diff --git a/38428-h/images/i_045.png b/38428-h/images/i_045.png
new file mode 100644
index 0000000..dd2e05d
--- /dev/null
+++ b/38428-h/images/i_045.png
diff --git a/38428-h/images/i_051.png b/38428-h/images/i_051.png
new file mode 100644
index 0000000..a3b3357
--- /dev/null
+++ b/38428-h/images/i_051.png
diff --git a/38428-h/images/i_055.png b/38428-h/images/i_055.png
new file mode 100644
index 0000000..d6751e5
--- /dev/null
+++ b/38428-h/images/i_055.png
diff --git a/38428-h/images/i_058.png b/38428-h/images/i_058.png
new file mode 100644
index 0000000..01cb3fd
--- /dev/null
+++ b/38428-h/images/i_058.png
diff --git a/38428-h/images/i_060.png b/38428-h/images/i_060.png
new file mode 100644
index 0000000..41a0389
--- /dev/null
+++ b/38428-h/images/i_060.png
diff --git a/38428-h/images/i_065.png b/38428-h/images/i_065.png
new file mode 100644
index 0000000..326fc44
--- /dev/null
+++ b/38428-h/images/i_065.png
diff --git a/38428-h/images/i_068.png b/38428-h/images/i_068.png
new file mode 100644
index 0000000..e524221
--- /dev/null
+++ b/38428-h/images/i_068.png
diff --git a/38428-h/images/i_070.png b/38428-h/images/i_070.png
new file mode 100644
index 0000000..0558497
--- /dev/null
+++ b/38428-h/images/i_070.png
diff --git a/38428-h/images/i_073.png b/38428-h/images/i_073.png
new file mode 100644
index 0000000..bb5714f
--- /dev/null
+++ b/38428-h/images/i_073.png
diff --git a/38428-h/images/i_076.png b/38428-h/images/i_076.png
new file mode 100644
index 0000000..455faf1
--- /dev/null
+++ b/38428-h/images/i_076.png
diff --git a/38428-h/images/i_077.png b/38428-h/images/i_077.png
new file mode 100644
index 0000000..5e5e355
--- /dev/null
+++ b/38428-h/images/i_077.png
diff --git a/38428-h/images/i_082.png b/38428-h/images/i_082.png
new file mode 100644
index 0000000..3a95480
--- /dev/null
+++ b/38428-h/images/i_082.png
diff --git a/38428-h/images/i_084.png b/38428-h/images/i_084.png
new file mode 100644
index 0000000..181d53c
--- /dev/null
+++ b/38428-h/images/i_084.png
diff --git a/38428-h/images/i_086.png b/38428-h/images/i_086.png
new file mode 100644
index 0000000..a11f950
--- /dev/null
+++ b/38428-h/images/i_086.png
diff --git a/38428-h/images/i_089.png b/38428-h/images/i_089.png
new file mode 100644
index 0000000..ece2ebf
--- /dev/null
+++ b/38428-h/images/i_089.png
diff --git a/38428-h/images/i_092.png b/38428-h/images/i_092.png
new file mode 100644
index 0000000..3269dc1
--- /dev/null
+++ b/38428-h/images/i_092.png
diff --git a/38428-h/images/i_095.png b/38428-h/images/i_095.png
new file mode 100644
index 0000000..4bc0226
--- /dev/null
+++ b/38428-h/images/i_095.png
diff --git a/38428-h/images/i_101.png b/38428-h/images/i_101.png
new file mode 100644
index 0000000..282ebf2
--- /dev/null
+++ b/38428-h/images/i_101.png
diff --git a/38428-h/images/i_102.png b/38428-h/images/i_102.png
new file mode 100644
index 0000000..a6bb0ed
--- /dev/null
+++ b/38428-h/images/i_102.png
diff --git a/38428-h/images/i_103.png b/38428-h/images/i_103.png
new file mode 100644
index 0000000..e7fbb37
--- /dev/null
+++ b/38428-h/images/i_103.png
diff --git a/38428-h/images/i_104.png b/38428-h/images/i_104.png
new file mode 100644
index 0000000..a8729c9
--- /dev/null
+++ b/38428-h/images/i_104.png
diff --git a/38428-h/images/i_cover.png b/38428-h/images/i_cover.png
new file mode 100644
index 0000000..5886905
--- /dev/null
+++ b/38428-h/images/i_cover.png
diff --git a/38428.txt b/38428.txt
new file mode 100644
index 0000000..6c8218a
--- /dev/null
+++ b/38428.txt
@@ -0,0 +1,2452 @@
+The Project Gutenberg EBook of Through a Microscope, by
+Samuel Wells and Mary Treat and Frederick Leroy Sargent
+
+This eBook is for the use of anyone anywhere at no cost and with
+almost no restrictions whatsoever.  You may copy it, give it away or
+re-use it under the terms of the Project Gutenberg License included
+with this eBook or online at www.gutenberg.org
+
+
+Title: Through a Microscope
+       Something of the Science Together with many Curious
+       Observations Indoor and Out and Directions for a Home-made
+       Microscope.
+
+Author: Samuel Wells
+        Mary Treat
+        Frederick Leroy Sargent
+
+Release Date: December 28, 2011 [EBook #38428]
+
+Language: English
+
+Character set encoding: ASCII
+
+*** START OF THIS PROJECT GUTENBERG EBOOK THROUGH A MICROSCOPE ***
+
+
+
+
+Produced by Chris Curnow, David E. Brown and the Online
+Distributed Proofreading Team at https://www.pgdp.net (This
+file was produced from images generously made available
+by The Internet Archive)
+
+
+
+
+
+
+
+
+
+  THROUGH A MICROSCOPE
+
+  SOMETHING OF THE SCIENCE
+  TOGETHER WITH MANY CURIOUS OBSERVATIONS
+  INDOOR AND OUT
+  AND DIRECTIONS FOR A HOME-MADE MICROSCOPE
+
+
+  BY
+  SAMUEL WELLS, MARY TREAT AND
+  FREDERICK LEROY SARGENT
+
+
+
+  CHICAGO
+  THE INTERSTATE PUBLISHING COMPANY
+  BOSTON: 30 FRANKLIN STREET
+
+
+  COPYRIGHT, 1886,
+  BY
+  INTERSTATE PUBLISHING COMPANY.
+
+
+
+
+CONTENTS.
+
+
+CHAPTER.                        PAGE.
+
+I. Through a Microscope             7
+
+II. The Outfit                     14
+
+III. The Objects                   20
+
+IV. Home Experiments               26
+
+V. Cochituate Water                33
+
+VI. Interesting objects            39
+
+VII. The Brickmaker                46
+
+VIII. The Vorticellas              54
+
+IX. The Utricularia                61
+
+X. Free Swimming Animalcules       70
+
+XI. On the Beach                   78
+
+XII. Rizopods                      86
+
+XIII. How to See a Dandelion       97
+
+XIV. How to See a Bumble Bee      107
+
+XV. Some Little Things to See     114
+
+
+
+
+PART I
+
+THROUGH A MICROSCOPE
+
+BY SAMUEL WELLS
+
+
+
+
+THROUGH A MICROSCOPE
+
+
+I
+
+An object one hundredth of an inch in diameter, or of which it would
+take one hundred placed side by side to make an inch, is about the
+smallest thing that can be easily seen by the unassisted eye. Take a
+piece of card and punch a little hole through it with the point of a
+small needle, hold it towards a lamp or a window, and you will see the
+light through it.
+
+  [Illustration: FIG. 1.]
+
+This hole will be about the size just mentioned, and you will find that
+you can see it best and most distinctly when you hold it at a certain
+distance from your eye; and this distance will not be far from ten
+inches, unless you are near-sighted. Now bring it towards your eye and
+you will find it becomes blurred and indistinct. You will see by this
+experiment that you cannot see things distinctly when held too close to
+your eye, or in other words, that you cannot bring your eye nearer to an
+object than eight or ten inches and see it well at the same time.
+
+You could see things much smaller than one hundredth of an inch if you
+could get your eye close enough to them. How can that be done? By a
+microscope? yes, but what is that? This name comes from two Greek words
+that mean "to see small things;" and a microscope is an instrument by
+which your eye can get very close to what you want to see.
+
+To understand this, take out one of your eyes and look at it with the
+other one. You see that it is a little round camera; most boys have seen
+a camera and some boys can make one. The simplest way to do that is to
+take a box, say a cigar box (empty, of course); pull off the cover and
+fasten in the place of it a piece of ground glass if you have one: if
+not a piece of white letter paper, oiled, will do; bore a hole in the
+middle of the bottom with a small gimlet and your camera is done. Point
+the bottom with the hole in it out of the window, and throw a piece of
+cloth over your head and over the box, as the photographers do, to shut
+out the side light, but mind and not cover up the hole; look at the
+ground glass (or oiled paper) and you will see things upside down. (Fig.
+1.) But what has it to do with my eye? you say. Why, your eye is just
+like it, only round, as in fig. 2. And if you hold a doll or anything
+else about ten inches in front of the eye you have taken out and look at
+the inside of it (the eye, not the doll) just as you look at the ground
+glass of your box camera, you will see the doll upside down on the back
+of the eye.
+
+But how, do you say, can I see things right side up when they are upside
+down in my eye? This is a very good conundrum and it will keep a long
+time, till you are about seventy years old and have spare time to sit
+down and think about it.
+
+Now you see how your eye is a camera; the pupil is the hole and the
+back of the eye, called the retina, is the ground glass.
+
+But you will find that the camera you have just made does not show
+things distinctly and beautifully as the photographer's camera does; how
+can they be distinct in the eye then?
+
+Because in the photographer's camera, in the hole is a lens, which is a
+piece of glass, shaped like a sun glass; and so in your eye just behind
+the pupil is a lens, not made of glass, but still almost as transparent
+as if it were. In order to see what effect this lens has, take your box
+camera, make the hole larger and put a lens in it; one of your magic
+lantern lenses will do; and if the lens has the right focus you will see
+the images sharp and distinct on your ground glass. The focus probably
+will not be just right, so make a paper tube, into which fasten your
+lens and slide the tube in and out of the hole until you find the right
+focus.
+
+When you have got that right so that you see a boy on the sidewalk
+upside down and see his teeth when he laughs, put some small object, the
+little doll will do, about three feet in front of your lens, and you
+will find the image of it is blurred and indistinct, and that you must
+pull your tube out to get the focus on the doll; or if you had another
+lens of just the right shape to hold in front of your camera, you would
+with that get the focus on the doll.
+
+  [Illustration: FIG. 2.]
+
+Thus you can see how it is with your eye, and why you cannot see things
+distinctly held close to it. The lens in the eye can change its shape a
+little, so that it will focus objects a mile off, or ten inches off, but
+it cannot be pushed in and out like the tube in your camera. You can do
+this, however, if you take another lens and hold it outside your eye and
+let the light go through that first before it comes to the lens in your
+eye, and in this way you can get a focus in your retina, and the outside
+lens thus forms a part of that optical instrument called your eye. Does
+your grandma know that her spectacles are a part of the cameras that she
+calls her eyes?
+
+How is it that a lens bends (refracts is the big word for it) the rays
+of light? You will learn by and by. You can see that it does so by a few
+experiments with your sun glass or any such lens. Hold it between the
+sun and a piece of white paper until the white spot in the centre is as
+small as you can make it. You will see that the rest of the lens casts a
+shadow although it is all glass; this is because the rays of sunlight
+that fall on the lens are all bent towards the centre, and so you have a
+small white spot on which is concentrated the light and the heat, and
+before you have found out how it is all done, your paper takes fire and
+the experiment ends in smoke.
+
+Take another piece of paper, and when the white spot is at its smallest,
+measure the distance between the lens and the paper, and you will have
+the focal distance of the lens.
+
+You have now found out how to get your eye close to an object and see
+something that is very small; this is usually called magnifying it,
+because it seems to make it look large. Suppose you have a lens that
+will let you see a flea through it held just one inch from it, this lens
+is now an addition to your eye, as we measure from the lens. If you had
+another flea held ten inches off, so big that it would just be hidden by
+the little flea, the one farthest off would be ten times as large as the
+near one. (Fig. 3.) In this case it is said that the lens having a focal
+length of one inch magnifies ten times, or has a power of ten.
+
+  [Illustration: FIG. 3.]
+
+The shortest usual distance of objects seen distinctly being taken as
+ten inches, microscopists have agreed to consider that as the standard
+of measurement, and objects seen through a lens are considered magnified
+to the size they would have if projected ten inches off, like our little
+flea.
+
+
+II.--THE OUTFIT.
+
+Now that we have got hold of the idea that the eye is an optical
+instrument, and that to increase its capacity for seeing small things we
+add to it other optical contrivances, making with it one instrument
+composed of several parts, let us look at such additions more
+particularly.
+
+  [Illustration: FIG. 1.]
+
+  [Illustration: FIG. 2.]
+
+  [Illustration: FIG. 3.--OPEN AND CLOSED.]
+
+One pleasant September afternoon, three gentlemen were strolling along
+the banks of the Wissahickon, in Philadelphia's beautiful park, and
+stopping now and then to examine some little flower or insect with
+pocket lenses, when they discovered that some little boys out for a
+holiday were watching their proceedings with a curious and mystified
+interest. One of the gentlemen had a pocket microscope with three lenses
+of different sizes, as in Fig. 1. Calling the boys up to him he showed
+them a little flower magnified. They had never dreamed of such a sight,
+and their wonder and amazement were as great as if they suddenly beheld
+a new world. You will be as surprised as they were when you take your
+first peep, but you must learn to see such things _by yourselves_. The
+first thing you need is a simple microscope, that is, one with a single
+lens, small enough to be carried in the pocket. There are different
+forms and sizes of such microscopes, varying in quality and price. Those
+like the one just mentioned are made with from one to four lenses each,
+and are perhaps the most generally useful. Then there is the Coddington
+lens (Fig. 2) which is still more compact; and it is sometimes made in
+the form of Fig. 3. It has a very short focus, and is not, therefore,
+very easy to use. Achromatic doublets and triplets are made of two or
+more lenses cemented together and mounted in the same style as the
+Coddington lens; they are very much better than the Coddington, but are
+more expensive.
+
+  [Illustration: FIG. 4.]
+
+  [Illustration: FIG. 5.]
+
+There are several devices for mounting these simple microscopes on
+stands so that they can be kept steady and the objects to be examined
+placed behind them. One of these is illustrated in Fig. 4. An ingenious
+boy with a block of wood for a base, some stout wire and corks, can make
+one almost as useful, though not so handsome.
+
+  [Illustration: FIG. 6.]
+
+A more elaborate form is shown in Fig. 5. It has a glass stage to hold
+transparent objects, and a brass one for opaque objects, and a mirror
+below to reflect light up through transparent objects.
+
+It is much better to use a good simple microscope than a poor and cheap
+compound one; be sure and remember this and not be enticed to buy such
+an one by any representations as to its great magnifying power.
+
+A compound microscope is one with a tube from four to ten inches long,
+an arrangement for holding the object to be looked at, and a mirror
+below to reflect light upon or through it. The lenses at the end next
+the object are small, and are set in a small brass tube, which is called
+an "objective." It screws into the large tube. The lenses at the end of
+the large tube next the eye are set in a tube, called the eye-piece,
+which slides in and out of the large tube. Different objectives contain
+lenses of different sizes according to the magnifying power desired, and
+they are named "two inch," "one inch," "half inch," and so on down to
+"one seventy-fifth." Eye-pieces are sometimes named "A," "B," "C," but
+more properly "two inch," and so on down to "one eighth." There is a
+very great variety in the forms of compound microscopes, from the very
+simple up to the very elaborate, and the prices vary accordingly. A
+simple but useful form is given in Fig. 6.
+
+A great deal of money can be expended on a microscope and the various
+instruments made to use with it and which are called "accessory
+apparatus"; but it is best not to buy these instruments until you know
+just what you want, and not to spend much money at first except under
+the advice of a "microscopist."
+
+Some simple things, however, you will need at once, such as a few slips
+of glass three inches long and one inch wide, called "glass slides,"
+some pieces of very thin glass, called "cover glass," a pair of
+tweezers, some needles fastened into pen-holders for handles, and a few
+glass tubes commonly called "pipettes," or "dipping tubes." These can be
+readily bought, and some of them easily made.
+
+  [Illustration: CATCHING ANIMALCULA WITH A PIPETTE.]
+
+
+III.--OBJECTS.
+
+As soon as you have a microscope you will begin to look at everything
+and anything: dust, crumbs of bread, flour, starch, mosquitoes, flies,
+and moth millers in their season; flowers and leaves, cotton, wool, and
+silk. But this scattering kind of observation will soon weary you. In
+order to get the greatest pleasure and best results from your work, you
+must proceed with some system.
+
+  [Illustration: BULL'S EYE LENS.]
+
+There are so many objects visible only through the microscope that life
+is not long enough for you to see them all, much less to study them.
+Some microscopists devote the time they have for such studies to the
+observation of single classes of objects; the physician observes the
+various parts of the animal structure, and calls his work "histology;"
+the botanist examines the vegetable kingdom; the entomologist, insects;
+but in all these departments there are numerous subdivisions. As a guide
+to your work, you will find some book on the microscope very useful; the
+best one is _The Microscope and its Revelations_, by Dr. William B.
+Carpenter.
+
+  [Illustration: MAGNIFIED 50 DIAMETERS.]
+
+  [Illustration: FLY'S EYE--5 DIAMETERS.]
+
+Objects through which you can see light are called "transparent," and
+are the easiest to look at with the microscope, because you can lay them
+on a glass slide and throw light up through them with your mirror. Thick
+objects through which light cannot pass are called "opaque," and are
+more difficult to examine, and can only be seen with low powers and a
+bright light.
+
+In order to see such objects in the evening, you will need a "bull's
+eye" lens mounted on a stand, which you can place beside your microscope
+and between the lamp and the stage, condensing the light of the lamp on
+the object. (_Fig. 1._) There are other methods of illuminating opaque
+objects, but they are expensive and difficult to manage, yet by and by
+if you persevere in this delightful occupation you will learn what they
+are.
+
+  [Illustration: Scale of Butterfly
+  MAGNIFIED 200 DIAMETERS.]
+
+  [Illustration: HEAD OF MOSQUITO. MAGNIFIED 15 DIAMETERS.]
+
+Some persons will expect you to show them a fly as big as a horse; but
+you will soon be able to prove to them that you know more about the
+matter than they do. With a large hand-lens, you can see a whole fly at
+once and magnify it two or three times; but when you put it on the stage
+of your compound microscope and try to magnify it still more, you will
+find that you can only see a part of it at a time, and the higher the
+power you use, the less can you see; in other words, the more you
+magnify an object, the smaller is the field of view.
+
+An inch-objective will show the head of an housefly, which in a bright
+light is a very beautiful object. No picture can equal the delicacy of
+the color of the eyes of a live fly.
+
+  [Illustration: SECTION OF WOOD.
+  MAGNIFIED 50 DIAMETERS.]
+
+After a little practise you will be able to separate the different parts
+of insects and look at them with higher powers. The moth fly will soon
+be on the wing, and your aunt will not call you cruel if you kill and
+cut up large numbers of them. Put a little of the dust that comes off
+from the wing of a moth on a glass slide, look at it with a high power,
+and you will find that each particle of dust is a pretty leaf-like
+scale. You have seen in summer the dust on the wings of butterflies;
+remember this, and look at this butterfly dust with your microscope.
+
+Flowers and leaves you can always easily obtain; but in looking at them
+you must remember what has already been said about "transparent" and
+"opaque" objects.
+
+Thin slices or sections of stems, leaves, and portions of flowers, can
+be made with a sharp knife, and examined as transparent objects, so that
+thus you can observe the internal or cellular structure of the vegetable
+kingdom.
+
+
+IV.--HOME EXPERIMENTS.
+
+  [Illustration: FIG. 1.]
+
+During the cold weather it is not pleasant to make excursions into the
+country and search for objects for the microscope; so you will look
+about and see what you can find at home; and if you live in Boston,
+Cochituate water will invite your inspection. The best way to get at the
+minute objects in this or any water that is supplied through pipes, is
+to make a bag of cotton cloth, not too fine, well washed in water
+without soap, about a foot long, large enough at the top to slip over a
+faucet that has a screw on it (like the common kitchen faucet adapted
+for a filter), so that it can be tied with a string, and small enough at
+the bottom to be tied on to the neck of a small bottle such as is used
+for homoeopathic pills. This bag should taper gradually in size from
+the top to the bottom. (_Fig. 1._)
+
+  [Illustration: The Water Flea
+  FIG. 2. CYCLOPS QUADRICORNIS. MAGNIFIED 20 DIAMETERS.]
+
+  [Illustration: FIG. 3. CANTHOCAMPTUS MINUTUS. 40 DIAMETERS.]
+
+If there is a strong head of water where your faucet is, you must reduce
+the pressure by opening other faucets on the same floor, such as those
+in the laundry, otherwise many of the small creatures will be crushed in
+the interstices of the bag. Now let the water run. The bag will swell
+out and the water ooze through its sides, and all objects too small to
+pass through it will fall down and settle in the little bottle at the
+bottom. When you see that there is a considerable amount of sediment in
+the bottle, shut off the water and gently squeeze the bag between your
+thumb and forefinger, beginning at the top and moving your hand down
+towards the bottle. This movement will cause much of the sediment that
+has adhered to the sides of the bag to fall down. Now untie your bottle
+and set it aside and let the water run through the bag to clean it. If
+you have a filter attached to your kitchen faucet you can get a very
+good idea of the solid contents of the water by unscrewing it, or
+turning it over if it is made so as to reverse, and letting the sediment
+that has collected on it drip into a tumbler, but the bag gives much
+better results, as many of the delicate forms that live in the water are
+crushed to death on the filter.
+
+  [Illustration: FIG. 4. CHYDORUS SPHOERICUS. 50 DIAMETERS.]
+
+Having got the sediment in either a tumbler or a bottle, you must make
+your first observation on it with the naked eye by holding it up to the
+light and looking through it. You will find it of a brown color, because
+a large part of it consists of particles of earth and decayed vegetable
+matter, but you will presently see many little white specks moving about
+with a jumping or hopping movement. These are commonly called
+"water-fleas," on account of their peculiar movements, but the name is
+misleading, as they belong to the crustacea (animals having a shell or
+crust like the lobster), and not to the insects.
+
+They are found abundantly in ponds and ditches, and in salt water.
+Sometimes they are so abundant in drinking water that has not been
+filtered, as to alarm a timid person, but you will find them just as
+good to eat raw as they are cooked. The most common of these little
+creatures is the _Cyclops Quadricornis_, so called because he has one
+eye and four horns. (_Fig. 2._)
+
+This picture represents a female, and she carries her eggs in the two
+little black bags that you see fastened on each side of the abdomen. You
+will find it very interesting by and by to watch the eggs hatch and see
+the little cyclops hop away. When young they do not look much like their
+parents; they are rounder and their legs are more prominent. The female
+cyclops (the male is comparatively rare) is the most common creature in
+Cochituate water, and as it is constantly eating, it helps to purify the
+water, and, in its turn, is eaten by the fishes.
+
+In swimming it contracts its four horns and its fringed feet with a
+quick movement that throws it forward through the water with a leap.
+
+Its one eye is of a brilliant red, and is a beautiful object under the
+microscope. The shell also is sometimes beautifully colored, and is
+often transparent, so that the internal organs are plainly visible
+through it.
+
+  [Illustration: FIG. 5.]
+
+Another of the family of _Cyclopidae_ is the _Canthocamptus minutus_
+(_fig. 3_), which you see is longer and more tapering in its form than
+the _Cyclops Quadricornis_. It is also very common and very active.
+
+_Chydorus Sphoericus_ (_fig. 4_) is a very pretty round form
+interesting to study when transparent.
+
+All these and some others with rather hard names are in that division of
+the _Crustacea_ called _Entomostraca_, meaning shelled creatures whose
+shells are cut and do not cover them all round. On this principle, an
+oyster on the half-shell might be called an _Entomostracan_.
+
+Now to catch these lively fellows, you must take a dipping tube and be
+patient, and when you have got one in the tube, carefully drop it on the
+bottom of the "live-box" (_fig. 5_), and put on the cover. Examine it
+first with the lowest power you have. By careful management of the cover
+you can catch it between the top and bottom without breaking the shell,
+and in this prison you can study it at leisure.
+
+
+V.--COCHITUATE WATER.
+
+You have read or been told that if you look at a drop of water through a
+microscope you will find it full of animalculae, and showmen will
+sometimes exhibit water containing _entomostraca_ hopping about, and
+will try to persuade you that all water looks in the same way.
+
+  [Illustration: ROTIFER VULGARIS.]
+
+But this is a common mistake, as you will soon find out for yourselves.
+Water such as is commonly used for drinking purposes, whether it comes
+from a well, spring, river, or pond, contains but little animal or
+vegetable life in proportion to its quantity; you may place drop after
+drop under the microscope without finding anything visible, and you can
+only tell what is in it by filtering a great deal of it. Water standing
+in ditches or pools for a long time, becomes full of growth of various
+kinds, and is then so discolored and slimy that no one would think of
+drinking it.
+
+  [Illustration: CARAPACE OF ANURAE STIPITATA.]
+
+Let us return to the little bottle which you filled with Cochituate
+filterings last month. Take a little from the bottom with your
+dipping-tube; put it in the live box and examine it with a half-inch
+objective. You will see many forms that are strange to you, and we will
+suppose that the first is that of one of the rotifers. These little
+creatures are called by this name because of two Latin words meaning
+wheel-carriers, for on their heads they have an arrangement which looks
+like a wheel, sometimes in rapid motion.
+
+  [Illustration: FLOSCULARIA ORNATA.]
+
+The most common kind is called _Rotifer vulgaris_ (_fig. 1_), and is a
+very interesting and elastic being. Sometimes he is gloomy and draws
+himself in so that he looks like a ball; then he will stretch out full
+length, and opening his wheel, shoot through the water with great speed.
+Again he will attach his tail to some fixed object, and by the aid of
+his wheel draw a rapid current of water through his mouth; it is thus
+that you can best observe him, and by and by you will discover that the
+apparent wheel is only a result of the rapid sweeping movement of the
+long hairs or cilia which fringe the opening in the top of the head.
+Through this opening the water passes, the rotifer gathers his food from
+the current, and the food passes into the mastax, where it is ground by
+the masticating apparatus, which is easily seen in motion.
+
+  [Illustration: DINOBRYON TORTULARIA.]
+
+There are several different rotifers found in Cochituate water; among
+them the most common is the _Anurae Stipitata_. (_Fig. 2._) It is like a
+turtle, with a shell, or carapace, beautifully ornamented. You will see
+plenty of these empty shells, and sometimes you will find one inhabited,
+when you will see that the creature has a bright red eye, and several
+bundles of cilia, in front of the projecting spires.
+
+One of the families of the rotifers is called _Floscularia_, because it
+resembles a flower; it is attached at the base to small plants, or algae,
+and occupies a sheath so transparent that it is hardly visible. One
+species is occasionally found in the Cochituate, the _Floscularia
+ornata_. (_Fig. 3._) It is a beautiful object, with its elongated
+radiating cilia, which remain quiet, and do not vibrate. The specimen
+figured has three eggs attached to its stem.
+
+You will find other rotifers in the Cochituate, some formed like vases,
+others with long spires, but all graceful and beautiful. The _Dinobryon
+Tortularia_ is sometimes very common in this water.
+
+In October, 1881, when the taste of the water was very bad, the
+_Dinobryon_ was very abundant, though we do not know that it had
+anything to do with the bad taste. You will see by the figure, that it
+is like a tree, with an individual of the family at the end of every
+branch. Each one has its own organs of existence, although attached to
+its brothers by its stem. Each has a bright red eye, and a long slender
+whip, called a _flagellum_, with which it lashes the water, and when all
+the _flagellae_ are in motion, the whole tree swims about. The
+individuals are very small indeed, and it will take your best objective
+to show the _flagellum_.
+
+  [Illustration: VORTICELLA NEBULIFERA.]
+
+Another tree-like group is that of the _Vorticella_, of which you will
+sometimes find in the Cochituate, the species _Vorticella nebulifera_.
+Each animal is at the top of a stem, and this stem has the peculiar
+property of being able to coil up and draw its head down close to the
+bottom. This appears to be a defensive movement, for whenever a big ugly
+creature comes by, down go the whole family so quickly that your eye
+cannot follow the movement. Sometimes they will all bob down when you
+tap the stage of the microscope so as to jar them. At a certain period
+of its life the animal suddenly leaves its stem, and goes swimming about
+with great speed.
+
+
+VI.--INTERESTING OBJECTS.
+
+  [Illustration: STEPHANODISCUS NIAGARAE.]
+
+The most beautiful of the small _algae_ or water plants are the
+_Diatomaceae_ and the _Desmidiaceae_, sometimes called for brevity diatoms
+and desmids. They are remarkable for the geometrical character of their
+forms, consisting of circles, triangles and polygons of infinite
+variety. They are very small, and cannot be satisfactorily seen with an
+objective of less power than a four tenths. The diatoms are found
+everywhere in both fresh and salt water, but the desmids live only in
+fresh water. One of the most common diatoms in Cochituate water is the
+_Stephanodiscus Niagarae_. (_Fig. 1._) It is in shape like a pill box,
+and its sides, which would be called its top and bottom if it were a
+pill box, are beautifully ornamented with dots in radiating lines with a
+ring of spines near the edge. This circle of spines or thorns explains
+its name, _Stephanodiscus_, from the proto-martyr, Saint Stephen. The
+name _Niagarae_ is from Niagara River, where it was found. Like all
+diatoms, it contains when alive a yellowish brown matter with small
+globules of oil, which is called _endochrome_. The box or shell, called
+_pustule_, is of silex or quartz, and is therefore almost
+indestructible; and when the diatom dies, sinks to the bottom of the
+water. In this way beds of shells of diatoms are sometimes formed of
+considerable thickness.
+
+  [Illustration: ASTERIONELLA BLEAKLEYII.]
+
+  [Illustration: TABELLARIA FENESTRATA.]
+
+Under the city of Richmond, Va., there is such a deposit, varying from
+ten to twenty feet in depth, and extending for many miles. Some of the
+diatoms, especially those shaped like a boat, called _Navicula_, have a
+peculiar motion which at one time led observers to think them animals.
+No one knows how this motion is produced, and if you can find this
+out, you will make a very important discovery. The most common diatom in
+Cochituate water is _Asterionella Bleakleyii_. It resembles a star with
+rays, or the hub and spokes of a wheel. (_Fig. 2._) This diatom is often
+found in abundance in the water supplies of cities. It never forms a
+complete circle, but grows into spirals or whorls which easily break up.
+
+  [Illustration: SPONGILLA FLUVIATILIS.]
+
+  [Illustration: DESMIDIUM SWARTZII. FRONT AND SIDE VIEW.]
+
+Another diatom common in Cochituate is _Tabellaria Fenestrata_, which
+grows in ribbon-like forms. (_Fig. 3._) The desmids resemble the diatoms
+in the geometrical character of their forms, but they have no shell of
+silex, and are therefore easily destroyed. They are readily
+distinguished at sight by the beautiful green color of the contained
+matter. In many of them there is a curious circulation of small
+particles, especially in the ends of those of a crescent or new-moon
+shape. This circulation can only be seen with a high power. Desmids are
+easily found in ponds and ditches; and there are several species in
+Cochituate. Among them is _Desmidium Swartzii_ (_fig. 4_), and
+_Closterium moniliferum_. (_Fig. 5._) Their beauty depends so much on
+color that they do not appear to advantage in the figures. You will find
+in examining the filterings of Cochituate water, many objects which have
+not been described in these papers, and among them many fragments of
+green filaments of the small plants belonging to the _confervae_ and the
+_oscillatoriae_; sometimes you will find small round opaque forms of
+brown or green color, which are probably spores of plants of a larger
+growth; sometimes you will see the pollen of pine-trees which has fallen
+into the water and looks like three small balls fastened together;
+sometimes, though rarely, you may find one of those curious little
+creatures called water bears, or _tardigrada_; and you may be fortunate
+enough to catch a water spider.
+
+  [Illustration: CLOSTERIUM MONILIFERUM.]
+
+But you will often see the _spiculae_ of the sponge, called _Spongilla
+fluviatilis_. They look like pins of glass, blunt at one end and
+pointed at the other, and are sometimes very abundant. You may have
+heard that this sponge has been considered the source of the
+occasionally bad taste and smell of Cochituate water. When it is alive,
+it is not disagreeable, but when it decays it imparts to the water a
+very unpleasant taste and odor. It certainly is one cause of the bad
+quality of the water, but whether it is entitled to the sole credit is
+still open to question.
+
+You can see what it looks like in _fig. 6_. When alive, it is of a
+light-green color, but when decayed it becomes brown. It is full of the
+_spiculae_ above described, which serve to stiffen it, but it easily
+crumbles and scatters them through the water.
+
+Though the microscope shows us many beautiful and interesting objects,
+yet in the present state of our knowledge we cannot ascertain by its use
+whether the water we examine is harmless or injurious.
+
+
+VII.--THE BRICKMAKER.
+
+The microscope reveals so many strange odd-looking water creatures and
+plants that we can easily imagine ourselves transported to some new
+world. Look at this field of view as seen through the microscope. In the
+centre stands a brickmaker. He is a queer little animal, and so small
+that he looks like a mere speck to the naked eye, but through the
+microscope we see how wonderfully curious and strange a creature he is.
+He is no idle, lazy fellow. He is instead a most busy mechanic.
+
+Just now he is building a house out of tiny bricks, and he manufactures
+the bricks himself, making them one at a time, and when one is finished
+he lays it down carefully by the side of the last, and fastens it firmly
+in its place with a kind of cement. The bricks are laid in regular tiers
+one above the other.
+
+We find these brickmakers in still water where various water-plants
+grow, especially the water-milfoil and bladderwort. They seem to be
+social beings. They live in large communities, attaching their houses to
+the stems and leaves of the plants so thickly sometimes that they almost
+touch one another. They look, to the naked eye, like lines about one
+eighth of an inch in length. Sometimes they are very thick on the plants
+in New Jersey ponds.
+
+If you take some of the plants and water, and put them in a bottle, you
+can carry a large number of the brickmakers home, where you can watch
+them at your leisure. Take a glass slide which has a little cup-shaped
+hollow to hold a few drops of water, and put a tiny piece of the plant
+with the house attached into this hollow and fill it with some of the
+water from the bottle. Now cover it with a very thin piece of glass and
+lay it over the stage of the microscope, and it is ready to be looked at
+and studied. You will look with both eyes, for your microscope is a
+binocular--one that has two tubes to look through. The size of the
+objects will depend upon the magnifying power you have chosen.
+
+The first thing you see is a dark, brick-colored, cylinder-shaped house
+which looks to be about the size of a cigar. The little builder who
+lives in this house has been disturbed by the means we have taken to
+make his acquaintance; he has stopped work and gone within. But he is so
+industrious a fellow that he will not remain within very long. As soon
+as it is quite still he will probably come to the door of his house, and
+you will see him thrust out two horns. He will move these horns to the
+right and left, cautiously feeling all around him. He seems very
+cautious indeed. But at last he is satisfied that no enemy is near. Now
+he ventures out. He unfolds his wheels.
+
+These wheels are surrounded with a band of _cilia_, or flexible hairs,
+which he can put in rapid motion, making the wheels have the appearance
+of revolving very fast. This rapid motion of the cilia forms a swift
+current in the water; and this current brings tiny particles of various
+things to the little mechanic. Some of these particles he uses for food;
+of others, he makes brick. They are carried into an opening between the
+wheels where you can see them revolving very fast until they are
+gathered into a little round, dark-colored pellet. The particles are
+probably held together by a sticky secretion made by the builder.
+
+It takes him about three minutes to make a brick. As soon as it is
+finished, he bends his head over, takes it from its mould between the
+wheels, and lays it down carefully by the side of the last. Then he
+raises his head and begins to make another. The tube thus constructed is
+quite firm and strong. Sometimes when I have found a long tube, I have
+cut off a portion from the top. This can be done, with care, for the
+brickmaker drops to the bottom when disturbed. It is very amusing to
+watch him repair damages and rebuild. Sometimes I have forced one out of
+his tube, but it always soon died. But though industrious, he is so
+cautious, or timid, that he is easily frightened, and therefore he is
+often interrupted in his work. For instance, like some people that we
+know, he is very afraid of snakes. If a harmless little tiny snake comes
+wriggling along through the water anywhere near him, he folds his wheels
+and drops down into his house as quick as a flash. One day a little boy
+was delighted with the fast-revolving wheels. Suddenly, by and by, he
+turned toward me with great disgust plainly showing in his face: "He's
+gone in, 'fraid of a little snake!" he exclaimed.
+
+  [Illustration: FIGURE 1, BRICKMAKER; 2, CURRENT IN WATER; 3, 4, 5, 6,
+  DIATOMS; 7, 8, DESMIDS; 9, ALGAE; 10, 11, TRICHODA LYNCEUS; 12,
+  SNAKE-LIKE LARVA; 13, PART OF PLANT TO WHICH BRICKMAKER IS ATTACHED;
+  14, BATRACHOSPERMUM MONILIFORM.]
+
+He is always a great favorite with those who have watched him through
+the microscope. I do not know how long they live, but I have kept the
+same individuals three months or more. I think no one knows the entire
+life-history of any of these little creatures, so here is a grand chance
+for any young microscopist to investigate and become famous.
+
+On the left of the brickmaker in our field of view is a delicate,
+beautiful plant. Only a small part of it is seen in the engraving. It
+has a long, floating stem, thickly set with rosettes of a pearly green
+color. To the naked eye it looks like green slime, and is called "frog's
+spawn;" but the microscope shows us that it is a lovely plant, and some
+wise man has given us a long fine name to call it by if we
+choose--_Batrachospermum moniliform_. Let us see if this long name has
+any meaning: _Batrachia_, a frog, _spermum_, spawn; ah, after all, only
+another name for frog spawn! The other name, _moniliform_, means a
+bead-like necklace; and this was given it because the threads that make
+the rosettes look like strings of small pearly-green beads.
+
+All of the strange-looking plants and animals that we see in the
+microscope are known as well by sight and by name by those who make them
+a study, as are the larger animals and plants that we see around us
+every day.
+
+A bright little girl once asked me why such long hard names are given to
+everything in nature. We told her if there was but one language spoken
+in the world there would be no need of using Latin names. But as there
+are many languages, it was found necessary to agree upon some system, so
+that all peoples of different nations might have the same name for an
+animal or plant, and a long time ago all the civilized world agreed to
+use Latin names. Thus our little brickmaker is known all over the world
+as _Melicerta ringens_.
+
+"A field of view" depends for its interest and variety upon what kind of
+water we put under the microscope. In the one here represented, I first
+took a tiny spray of plant with a brickmaker's house attached, and laid
+it on the hollow glass slide and then used the dipping-tube and brought
+up some of the sediment from the bottom of the bottle; this proved to
+contain several singular-looking plants and animals shown here.
+
+_Figures_ 3, 4, 5 and 6, are diatoms, and _figures_ 7 and 8 are
+desmids. Naturalists formerly placed both diatoms and desmids in the
+animal kingdom, but now all agree that the desmids are plants, while
+some few still maintain that the diatoms are animals. But the weight of
+evidence is on the plant side of the question.
+
+The desmids are wonderfully beautiful plants; the markings and colors
+are exquisite. A number of species are found in the sediment of every
+swamp and pond.
+
+The diatoms often grow in long ribbon-like masses (_fig. 3_), and then
+partially separate, remaining joined together at the angles so as to
+form a zigzag chain as seen at _figure 4_. They have the power of moving
+through the water, changing their places like animals.
+
+A great variety of forms are found, both diatoms and desmids, many still
+undescribed, inviting the young microscopist to study and name them.
+
+_Figures_ 10 and 11 are different forms of a little animal, _Trichoda
+lynceus_. It undergoes a great many changes. In some of its stages, it
+looks so different from the figures here represented that you would
+never dream of its being the same creature.
+
+
+VIII.--THE VORTICELLAS.
+
+  [Illustration: CARCHESIUM POLYPINUM.]
+
+The tree-vorticellas must ever stand first among all the varied and
+beautiful objects which the microscope reveals. A species common in New
+England and the Middle States is known scientifically by the name of
+_Carchesium Polypinum_. It is impossible to convey a true idea of its
+beauty from a dead black and white drawing. To be appreciated it must be
+seen in all its living glory--charming little animals resembling
+bell-shaped lilies on the ends of lovely transparent stems.
+
+How curious nature is in the microscopic world! Only think of a tree of
+living animals! The stems of the tree are jointed, and the little
+creatures can sway the branches about and even throw them into a spiral
+coil so as to bring themselves near the main stem. This gives them the
+appearance of being very polite toward each other; they bow and courtesy
+as if preparing for a grand quadrille, and they are decked out in gay
+colors, red, green, and yellow. The margins of the little cups are
+fringed with hairs, or _cilia_, which they can put in such rapid motion
+that it makes a current in the water and brings little particles to
+their mouths which they consume as food. They do not accept everything
+that comes in the current. They seem to know what they like as well as
+the higher animals, and act as if they were vexed with some of the
+particles, rejecting and sending them off with a rapid whirling motion.
+
+The largest of these fairy-like trees are visible to the naked eye, but
+it will be necessary for a novice in such matters to use a good strong
+lens to be able to find them readily. They are attached to plants
+growing in water. I have always been most successful in finding them
+among the water-milfoil (_Myriophillum_) several species of which grow
+in New England and the Middle States. Some of the species are found in
+deep water, others in shallow ponds.
+
+The Bladderworts (_Utricularia_) are also good plants to search among.
+They grow in similar places. On either of these plants we shall be sure
+to find a good many interesting creatures. If we fail to find the tree,
+we may secure other species of vorticella, all of which are very
+beautiful.
+
+Do you know the _Utricularia_? I will devote the next chapter to these
+curious plants, and to the microscopic animals which they capture.
+
+It will take a little practice to learn where and how to collect
+material for the microscope. We should not depend too much upon books in
+any branch of natural history. To be successful, you must observe for
+yourselves, experiment and examine independently, consulting books that
+you may name and classify, that you may recognize and name what you
+find. If you fail to find specimens in one spot, try another.
+
+You should not fill your collecting bottles more than two thirds full of
+water, nor crowd too many plants in them. These little creatures must
+have air in order to live, as well as the higher animals.
+
+  [Illustration: FIG. 2.]
+
+The finest tree-vorticellas I ever found were in Florida, in the St.
+John's River. These trees were attached to long, floating stems of
+_Myriophillum verticillatum_, and were unlike any species that I ever
+found at the North. They were very large--in a microscopic
+sense--plainly visible to the naked eye, and it took only a moderate
+power to bring out their beauty.
+
+_Vorticella nebulifera_ is quite common in swamps and ponds. We find it
+attached to a great number of water plants. This species is not built up
+in the form of a tree, but it is nevertheless beautiful and graceful.
+The delicate, slender stems start from a node, or rounded mass,
+sometimes fifty or more of these fairy like creatures in one colony, all
+attached to a common centre, swaying about, coiling their delicate
+transparent stems, and again uncoiling quick as a flash, apparently
+dallying and playing, but never interfering nor becoming entangled one
+with another.
+
+The _Stentor_ is another member of the _Vorticellinae_ family. It is one
+of the largest of the infusoria, plainly visible to the naked eye, and
+one of the most interesting and curious of all the strange animals in
+the microscopic world. It assumes various forms. When swimming, it looks
+round and plump (_Fig. 2_), and rushes through the water pell-mell,
+knocking the smaller animals right and left, always seeming to be in a
+great hurry, unless two friendly ones happen to meet, when they
+frequently stop and put their heads together a moment as if exchanging
+greetings, then away they sail again, dashing through the water,
+capturing and devouring the smaller creatures as they go. And now a
+couple meet that are very communicative--two gossips, no doubt! At all
+events, they put their heads together and conclude to have a good
+sociable time.
+
+And they are sensible enough to know that they cannot stand around loose
+in the water or public highway. So they select a cosey spot and fasten
+their feet to a plant or some firm object, and stretch out their
+footstalks sometimes to a great length, making veritable trumpets of
+themselves. (_Fig. 3._)
+
+And who knows what grave matters may be settled during these conclaves?
+or perhaps they are only rehearsing gossip, as they have had every
+possible chance to see what was going on among their neighbors.
+
+  [Illustration: THE STENTORS.--"VERITABLE TRUMPETS."]
+
+Sometimes one settles down alone near a group of others, and seems to
+proclaim in stentorian voice that it is reception day and he is ready to
+receive. Or perhaps he is simply a herald as his name indicates, whose
+business it is to conduct ceremonies and regulate affairs! At any rate,
+though our ears are too dull to catch the voices of these curious beings
+of a lower world--so near, and yet in another sense, so far away, it
+would be difficult to believe that these animated creatures have no
+means of communication and nothing to communicate.
+
+
+
+
+PART II
+
+THROUGH A MICROSCOPE
+
+BY MARY TREAT
+
+
+IX.--THE UTRICULARIA.
+
+It seems strange that innocent-looking plants should capture and kill
+animals; but this is really what the Bladderworts (_Utricularia_) are
+all the time doing. They grow in ponds and swamps, some species in deep,
+still water, others in shallow ponds.
+
+Fig. 1 shows a portion of the stem of _Utricularia clandestina_, natural
+size. The little bladders are so nearly transparent, that on bringing
+them under the microscope, or even under a good lens, you can see the
+numerous creatures that they have captured, some partly consumed, others
+still alive.
+
+The bladders on these curious plants remind one of some of the
+_Entomostracans_ which Mr. Wells described in his fourth paper. Look at
+_Chydorus sphericus_ for instance, and then at the magnified bladder
+(_Fig. 2_) in this article. The branched horns at the mouth or entrance
+have very much the appearance of the antennae of some of the minute
+animals, and the stem when it is attached to the main branch may be
+likened to a tail. But the way in which they capture and devour the
+pretty little creatures that come within their grasp makes them appear,
+even more than they look, like wicked animals.
+
+  [Illustration: FIG. 1. PORTION OF A STEM OF UTRICULARIA CLANDESTINA;
+  NATURAL SIZE.]
+
+I have found almost every swimming animalculae with which I am
+acquainted, caught in these vegetable traps; and when caught they never
+escape. Their entrance is easy enough; there is a sensitive valve at the
+mouth of the bladder, which, if they touch it, flies open and draws
+them in as quick as a flash. These downward-opening bladders not only
+entrap animalculae, but, more wonderful still, the strong larvae of
+insects. The larvae most frequently caught are those of the mosquito and
+chironomus. Often the mosquito is caught tail first--the entire body
+inclosed and the head left sticking out. It always looks as if the
+victim might walk or wriggle out, but it never does; and you may be sure
+that it never backed in there of its own accord.
+
+You all know how the mosquito larva wriggles in the water, and is known
+by the common name of "wriggler," or sometimes inaccurately, "wiggler."
+Now just as sure as the tail of this wriggler strikes the mouth of the
+bladder, just so sure is he caught--drawn in by some unknown power
+quicker than you can speak.
+
+There is yet much to learn about these curious plants. How it is that
+the valve or trap can so firmly hold these strong larvae is still a
+mystery. I have seen a mosquito larva caught by the head when the first
+joint of the body was too large to be admitted through the entrance of
+the bladder, and have patiently watched its frantic efforts to escape,
+but it was never released. The more it thrashed about, the tighter grew
+the fatal trap until death put an end to its struggles.
+
+The chironomus larva is quite unlike that of the mosquito. The
+chironomus has brush-like feet which it can withdraw from sight--a sort
+of telescopic arrangement--or extend when it wishes to crawl along the
+plants, while the mosquito wriggles and swims.
+
+The chironomus is caught more often even than the mosquito larva. At
+certain seasons of the year it is almost impossible to find a bladder
+without one or more of these victims entrapped.
+
+They feed on the water plants, and seem to have a special liking for the
+long-branched antennae which grow at the mouth of the bladders, and, all
+unconscious of the trap, on, on they go, their sickle-shaped jaws
+cutting the antennae which they eat as they advance, until their heads
+reach the mouth of the bladder, when they heedlessly touch the valve and
+the trap is sprung and they are drawn within, never more to escape, but
+to be slowly devoured.
+
+There is another interesting species of _Utricularia_, the _Purfurea_,
+quite different in many particulars from the first. It grows in deep,
+still water. The stems are long, sometimes two feet or more in length,
+and the branches radiate in every direction, so that one plant often
+covers quite a large surface of water. The flowering stems stand above
+the water, and each stem bears three or four very pretty violet purple
+flowers, and it blossoms nearly all summer.
+
+  [Illustration: FIG. 2. BLADDER OF U. CLANDESTINA MAGNIFIED TWENTY
+  DIAMETERS.]
+
+The flowers are about half an inch broad and quite conspicuous. Most of
+the other species have yellow flowers.
+
+There are no little thread-like leaves on this species, and the bladders
+are on the ends of the little branchlets, and they have no sharp-pointed
+antennae as in the other species; but in their place is an elegant
+cluster of transparent glassy-like ornamental appendages. The ornaments
+are just above the entrance, and who knows but this is a contrivance set
+there to lure unwary creatures into the trap.
+
+One of the most common little creatures that was caught in this trap,
+was the _Tardigrada_, or water bear. He looks like a tiny cub, but
+unlike his great namesake, he has eight legs, and he frequently slips
+out of his old skin and comes out in a new suit.
+
+I often find them crawling in a forest of these plants, peering out of a
+thick jungle--now ascending a branch and out on a limb, holding fast
+with their long claws, and apparently looking around to see what they
+can find.
+
+Now one seems to be attracted to this elegant glassy cluster of
+_Utricularia_. At all events he is soon pushing his head among the
+delicate stems, then stops a moment, standing perfectly still as if
+listening. Perhaps he hears the groans of his dying comrades, but all
+unheeding the warning, he steps forward, touches the fatal spring, when
+in he goes to perish with his comrades.
+
+  [Illustration: FIG. 3. CHIRONOMUS LARVA: BACK VIEW WITH FEET DRAWN IN
+  AND JAWS CLOSED; SIDE VIEW WITH FEET EXTENDED AND JAWS CLOSED.]
+
+Young microscopists may like to know that the _Utricularia_ can be
+preserved in the house a long time by putting the stems or sprays in an
+open, shallow dish of water where they will grow readily. I have kept
+the plants months together in a large glass dish where they looked
+charmingly beautiful and were the admiration of all who saw them. It is
+very interesting to watch their growth. The ends of the growing sprays
+unroll like ferns, and with a magnifying glass you can see the
+development of the little bladders, and you may make discoveries--who
+knows? I know that for a long time it was a mystery to me how the
+bladders captured and imprisoned the little animals. Every day I saw
+they were entrapped and never escaped, and I studied and pondered over
+the matter a long time, and was so interested and determined to learn
+the secret that I spent night after night looking through the
+microscope, watching the strange, unwary creatures fall into the trap.
+
+At last I concluded to adopt the following plan: I took sprays of the
+plants that I had grown in clear water that contained no animalcules, so
+that all the bladders were empty and quite transparent. In another dish
+I had put a great many masses of mosquito eggs. Mosquito eggs are found
+floating on almost any standing water, in dark, compact masses. In warm
+weather they hatch in a few hours. So you can understand how quickly I
+could swarm a small vessel of water with the mosquito larvae by
+introducing the eggs where I wished them to hatch. When they were
+hatched I put some of the water in which was a large number of the tiny
+creatures into the live box with a spray of the plant containing empty
+bladders. I placed the box under the microscope and closely watched the
+manner of capture. I became certain that in almost every instance the
+larvae were caught tail first. The tail is brush-like, and when it swept
+over the door or valve that leads into the bladder, I saw that the door
+would immediately fly open and always draw the larva in. I soon became
+satisfied that the valve was very sensitive when touched at the right
+point, but to this day I cannot tell what the power is that so quickly
+draws the creatures within. I earnestly hope that some young
+microscopists will yet be able to ferret out the cause of this singular
+power.
+
+Those who have read Mr. Darwin's very interesting book on _Insectivorous
+Plants_, will have noticed that he says the valve of _Utricularia_ is
+not in the least sensitive, and that the little creatures force their
+way into the bladders--their heads acting like a wedge. But this is not
+the case, as Mr. Darwin himself was convinced some years before his
+death. In his usual kind, gracious manner he admitted that he was wrong,
+and gracefully says the valve must be sensitive, although he could never
+excite any movement. In a letter to me bearing date June 1st, 1875, he
+says:
+
+"I have read your article (in _Harpers Magazine_) with the greatest
+interest. It certainly appears from your excellent observations that the
+valve is sensitive.... I cannot understand why I could never with all my
+pains excite any movement. It is pretty clear I am quite wrong about the
+head acting like a wedge. The indraught of the living larva is
+astonishing."
+
+
+X.--FREE SWIMMING ANIMALCULES.
+
+The Brickmaker, Floscules, and Vorticellas are quiet peaceable citizens
+of the microscopic world, and seem to be impressed with the graver
+duties of life; they set up housekeeping and settle down for life moored
+to one spot. But there are many others that live a free-and-easy sort of
+life--a wandering gypsy kind of an existence, always on the move; and
+there is not much satisfaction in trying to follow these rovers if we
+wish to make a careful study of their structure.
+
+  [Illustration: SKELETON WATER WHEEL.]
+
+So to be enabled to examine them you will be compelled to imprison them
+in the live-box and bring just as much pressure to bear upon them as
+they will stand without crushing, which with careful practice you may
+soon learn to do. But if you are simply making the acquaintance of these
+little creatures for amusement, it is more interesting and satisfactory
+to watch them while they are unrestrained, and see the curious feats
+they perform.
+
+One of the most amusing of these little animals is the Skeleton
+Wheel-bearer (_Dinocharis pocillum_). His portrait is seen at _Figure
+1_. He has a long foot consisting of three joints, and these joints are
+as perfect as those of our own knees and elbows, and can be moved as
+easily forward and sideways, but not backward. The joints and foot are
+not covered with any fleshy substance, from which fact--the joints being
+so conspicuous--it probably received the name Skeleton. Two long slender
+toes extend from the last joint, and from the tips of these the Skeleton
+can show us more wonderful feats than any circus performer.
+
+The toes can be widely separated, or brought close together, like a pair
+of tongs. Sometimes he stands on the tip of one toe and throws his body
+forward, or from side to side with a rapid motion; then straightening
+himself up, he stands on the tips of both toes as if posing, remaining
+perfectly still for a few moments and giving us an opportunity to take a
+good look at his curious body which is encased in a pretty vase-shaped,
+three-sided transparent shell. The head extends from the top of the
+vase, and is surmounted with the usual cilia, or wheel, which we see
+among all the rotifera. When he is tired of posing, away he swims in a
+graceful, easy manner, with his long foot straightened out and the toes
+brought close together.
+
+You sometimes will find these pretty creatures, especially in
+summer-time, very numerous in the sediment at the bottom of your
+collecting bottles. Often I have found dead specimens, and very
+beautiful objects they sometimes are. Great numbers of tiny scavengers
+have completely cleaned out all of the soft parts of the body in a most
+neat and perfect manner, leaving the beautiful shell and vertical
+column, that runs through it, and the foot and toes, entire and perfect
+in all of their parts.
+
+Think of the minuteness of these scavengers--untold numbers of them
+preying upon the body of an object invisible to the naked eye; and yet
+this body is a mammoth by the side of one of the scavengers! The mind
+can scarcely grasp the minuteness of these tiny creatures--creatures
+that seem to enjoy existence, eating, and apparently playing and
+entertaining each other like the higher animals.
+
+  [Illustration: WHIPTAIL.]
+
+The whiptail (_Mastigocerca carinata_) (_Fig. 2_) is another delicate
+pretty little creature, and, like the skeleton, is encased in a glassy
+shell. It has a long, tapering, spine-like foot, or, more properly
+speaking, a toe which is attached to a very short foot by means of a
+flexible joint which allows free motion. You often will find him in
+company with the Skeleton, and they seem to vie with each other in
+performing strange feats. The Whiptail, if possible, looks even more
+comical than the Skeleton when it stands on the tip of its long toe, a
+toe which is longer than the entire length of the body, now bending over
+and nibbling at the plants, now whisking around as if looking and
+inquiring into some passing object, then sailing through the water with
+a graceful, easy motion beyond sight.
+
+_Brachionus pala_ is also a lovely creature encased in a delicate
+transparent shell. It is considerably larger than the Skeleton or
+Whiptail, and is just visible to the unassisted eye. If you drop it in a
+phial of clear water and hold it up to the light, you can distinctly see
+it gliding through the water like a revolving white speck. A moderate
+power of the microscope reveals its beauty. The shell is swelled at the
+sides, and narrow at the mouth, and round over the back, while the under
+side is flat.
+
+  [Illustration: LARGE ROTIFER.]
+
+Like the Skeleton and Whiptail, the head of the little Brachion is seen
+protruding from the upper part of the shell; but instead of one wheel
+this charming little creature has two, and nothing can be more lovely
+than a sight of these fast revolving wheels, like two beautiful crowns.
+
+The reason the wheel looks so strikingly beautiful in _Brachionus_ is
+owing to the long cilia which is longer in this genus than in other
+genera of this great family.
+
+The foot of _Brachionus_ is more curious than that of the Skeleton. It
+is telescopic, and the little animal has the most perfect control over
+it. He can draw it within the body so that it looks like a ball, and
+again quickly thrust it out and whisk it around in all directions like a
+tail. It has two short toes at the end which can be separated or brought
+together at pleasure. And he can firmly anchor himself by the toes and
+stretch forward, showing you the great length of the foot. Now he rolls
+from side to side without letting go his hold and performs other strange
+feats, and all the while the wheels are rapidly revolving, he has
+stopped his headlong career through the water and has settled down to
+get his supper.
+
+_Fig. 3_ represents one of the largest rotifers with which I am
+acquainted. I have never been able to find a description or engraving
+of it in any work on microscopy. But it is probably well known to
+microscopists, for it has a wide range. I have found it in New
+Hampshire, New Jersey and Florida.
+
+You cannot get a true idea of its graceful beauty from the drawing, as
+it is represented as it was seen in the live box with sufficient
+pressure upon it to keep it from moving, while serving as a model. And
+no engraving, however perfect, can give you any idea of its brilliant
+transparency and delicate coloring.
+
+The play of the muscles and internal organs are plainly visible, and you
+can always tell what he has chosen for dinner. Diatoms and desmids form
+a portion of his diet. His mouth is below the wheel. When he is hungry
+he anchors himself by his forked tail and sets his wheel in rapid
+motion, which makes a powerful current sufficient to bring quite large
+objects to his head, frequently too large to admit into the mouth. He
+will often repeatedly try to take a desmid entirely too large for his
+mouth, and his manoeuvres are quite comical as he whirls it round and
+round, nipping it on all sides. You will see by looking at the figure
+that everything has to be swallowed or taken within the body before it
+reaches the mouth. While the desmid is within the body the rotifer has
+control over it sufficient to take it into the mouth if it is of the
+right size, but if it is too large he soon becomes disgusted and ejects
+it with a sudden movement which sends it whirling rapidly away. And now
+he takes a smaller one and his jaws work vigorously a moment or two,
+when he swallows it almost entire, and we can plainly see the pretty
+markings and brilliant green color after it has passed into the stomach.
+
+This large rotifer is plainly visible to the naked eye, and you will
+find it in both shallow and deep ponds, wherever water plants grow,
+during the months of July and August.
+
+
+XI.--ON THE BEACH.
+
+Many of our young people spend the month of August at the seaside, and
+if those who wish to learn something of the curious microscopic animals
+will stroll along the beach when the tide has receded, until they come
+to rocky places and little pools filled with salt water and various
+marine plants, they will find a form of animal life quite different from
+that in fresh water ponds. These little pools along the rocky coast are
+the homes of countless numbers of zoophytes--animals which have a
+stronger resemblance to plants and flowers than any we have found in
+fresh water.
+
+Look for specimens for microscopic work on the surface of the rocks, on
+dead sea shells, and on the sea-weeds. On the sea-weeds you will often
+find a white filmy network which to the unassisted eye looks like simple
+white threads running and spreading in every direction, and at every
+angle of the network a tiny stem shoots up, branching out like a tree
+and making a miniature forest.
+
+Now if you apply a low power of the microscope, you will find the little
+forest is made up of a strange animal called _Laomeda geniculata_.
+(_Fig. 1._) Each branch of this compound animal terminates and expands
+into a lovely vase and is the home of a polype. The polype is not a
+separate individual any more than the end of a growing branch is
+separate from the tree on which it grows.
+
+  [Illustration: LAOMEDA.]
+
+When the creature is hungry he sends out from the margin of the vase
+from fifteen to twenty tentacles, ranged around the rim like the petals
+of a flower. _Figure 1_ shows one of these expanded polypes as seen
+through the microscope.
+
+The tentacles or feelers are fishing rods to bring game to the fleshy
+mouth which is protruded from the centre of the vase. A great many such
+mouths surrounded with their tentacles are necessary to feed this
+singular compound creature.
+
+All that I can tell you of these microscopic animals will be nothing
+compared to a study of them with your own eyes, so I will only give you
+hints of what you may expect, thereby hoping to create sufficient
+interest to induce you to stroll to out-of-the-way places, where you may
+find many of Nature's marvellous works. We want more field workers in
+every department of Natural History, and especially in microscopy where
+unexplored fields are awaiting you.
+
+When the tide has receded, various objects of interest will meet your
+eye at every step. Look at that old dead sea shell covered with a rough,
+shaggy nap. Ah, as we approach, the shell is moving off! What can it
+mean? Why, it means that a hermit crab has set up housekeeping in the
+old shell, and he, no doubt, thinks us suspicious characters and wants
+none of our company. But we are after microscopic objects now, and this
+hermit, interesting as he is, is not to claim our attention to-day. The
+rough coat on the outside of the shell is of more interest.
+
+With the aid of a pocket lens you will find it another zoophyte. You
+can see the polypes, as thick as they can well stand, rising erect and
+straight from the shaggy coat like a miniature field of wheat. With a
+higher power you will see that each mouth is surrounded with tentacles
+like those of _Laomeda_, but yet it is quite a different looking
+creature. If we touch one of these polypes ever so lightly, the great
+army immediately close their tentacles, for the same life pervades the
+entire colony, and those on the extreme outer edge feel the contact as
+quickly as the one we touched.
+
+  [Illustration: LARES.]
+
+One of the most comical and amusing creatures of all the zoophyte tribe,
+is figured and described by Mr. Gosse under the name of _Lar
+Sabellarum_. He was the first observer of this curious creature; he
+found it inhabiting the outer edge of the tube of a worm--the Sabella.
+So when you are looking for microscopic objects do not overlook any tube
+that you may see standing above the surface of sand and mud, as it may
+be surrounded by this singular zoophyte. The tubes usually extend an
+inch or two above the surface, and about as far below. I have found the
+tubes surrounded with the creatures, but not in as good condition for
+investigation as those Mr. Gosse mentions. Mine were too thick and
+crowded to distinguish clearly. But as Mr. Gosse describes them, they
+have a most close resemblance to the human figure as they stand erect
+around the mouth of the tube of Sabella.
+
+A loose network surrounds the top of the tube and the strange forms
+spring from the angles of the meshes. The creatures are furnished with
+heads, and immediately below the head are two arms. (_Fig. 2._) The head
+moves to and fro on the neck, while the arms are tossed wildly about as
+if gesticulating in the most earnest manner. Or, as in the wild and
+disorderly dances of savages the body sways back and forth while the
+arms are thrown upward and downward in a frantic way.
+
+One summer I found a colony standing so thickly together that they did
+not show off to very good advantage. Apparently they were like a packed
+army of Liliputians, striking out with their arms and struggling with
+one another. But when I came to observe them more carefully, I found
+they were not interfering with one another at all, but each was intent
+on his own business of obtaining a livelihood.
+
+  [Illustration: HAND OF BARNACLE.]
+
+The Sabella which inhabits the tube, is of itself a most attractive
+object. Most elegant fringed filaments proceed from the head, and wave
+back and forth like a fan, and near the ends of these delicate slender
+filaments are little black balls, supposed to be eyes. If they are eyes,
+the Sabella has no lack of vision, and this may account for his seeming
+watchfulness. He is always on the alert and drops down into his house at
+any approach. Only with the utmost caution will you have an opportunity
+to leisurely look at his rare beauty.
+
+When for the first time I saw this elegant, beautiful creature rising
+out of the tube, and waving its fringed fan-like filaments, I did not
+wonder at Mr. Gosse's enthusiasm. Neither was I surprised that he should
+be reminded of the old Roman mythology and call the zoophytes which
+surround the tube, "Lares," for the rare beauty of Sabella would suggest
+the protection of guardian spirits. He says:
+
+"These curious creatures have afforded much entertainment, not only to
+myself, but to those scientific friends to whom I have had opportunities
+of exhibiting them. When I see them surrounding the mansion of the
+Sabella, gazing, as it were, after him as he retreats into his castle,
+flinging their wild arms over its entrance, and keeping watch with
+untiring vigilance until he reappears, it seems to require no very vivid
+fancy to imagine them so many guardian demons; and the Lares of the old
+Roman mythology occurring to memory, I described the form under the
+scientific appellation of _Lar Sabellarum_. You may, however, if it
+pleases you better, call them 'witches dancing round the charmed pot.'"
+
+When the tide is out you will frequently notice barnacles adhering to
+the rocks, or to the timbers used in the construction of wharves. Pray
+stop and examine them critically and see what admirable fishers they
+are. Their fishing-nets are composed of several long, flexible, jointed
+fingers, thickly beset with sensitive hairs. When the fisher wants a
+meal he thrusts his long hand (_Fig. 3_) out the door of his stone
+house; the sensitive fingers quickly tell when they come in contact with
+anything good to eat, and they curl over and grasp it and convey it to
+the mouth.
+
+These barnacles are wonderful creatures and well worthy your continuous
+study. They pass through several stages. When young they are a gay
+rolicking set, swimming freely in the water; but as maturity approaches
+they settle down in stone houses, never more to rove about, and set up
+fishing for a living.
+
+
+XII.--RHIZOPODS.
+
+Rhizopods are the lowest creatures in the animal kingdom. Some of them
+are apparently nothing more than animated protoplasm. Protoplasm
+pertains to the first formation of living bodies, whether vegetable or
+animal, and it appears to be only a viscid, glutinous, unformed mass of
+jelly-like substance, yet these rhizopods seem endowed with something
+more than simple life.
+
+  [Illustration: FIG. 1. AMOEBA PRINCEPS, IN DIFFERENT FORMS.]
+
+Let us take the lowest of these lowly creatures, the _amoeba_, or
+proteus, which we may find during the summer in almost every fresh water
+pond. I cannot describe it, for, like its namesake, it is constantly
+changing its form, slipping away from us, as it were, right before our
+eyes, and assuming a new shape. As Proteus of old could assume any form,
+either plant or animal as he pleased, so our _amoeba_ can assume
+various forms at pleasure.
+
+You will remember that Homer introduces Proteus in the fourth book of
+the _Odyssey_. He makes him the servant of Neptune, and says his office
+was to take care of the seals or sea-calves. And who knows but his
+namesake may have some such office among the curious beings of the
+microscopic world which is peopled with as many strange creatures as
+those we read of in ancient mythology?
+
+We frequently see our proteus adhering to a leaf of some water plant
+when it looks like a little ball of jelly; and while we are looking at
+it, it pushes out an arm here, and now another there, and still another,
+as if feeling for something. (_Fig. 1, Amoeba princeps._) Not finding
+anything to its taste, it moves or crawls along with its temporary arms
+extended--all the while changing them, throwing one out on this side,
+then on that, then contracting and pushing out in another place. It
+seems to be actively in search of something. At last it has reached a
+moving diatom with one of its long arms, which it immediately wraps
+around it, and now the other arms are contracted and the creature
+actually folds itself around its dinner! He turns himself outside in,
+and makes a temporary stomach, and proceeds to digest the soft parts of
+the diatom. After he has extracted all the nourishing part, he squeezes
+or pushes out the clear, transparent shell, and starts in search for
+something more.
+
+It is not known to a certainty how the _amoebae_ are produced, but this
+much is known: If a portion of the body is detached from the rest, it
+does not die, but becomes an independent _amoeba_. If a portion of one
+of the arms becomes separated from the main body, it does not seem to
+incommode the creature in the least, and the small part soon begins to
+extend tiny arms and behave in every way like its parent. And this may
+be the only way in which the children of Proteus are made--veritable
+children of his own flesh.
+
+How strange it seems that a jelly-like mass of substance without form or
+organization should be endowed with life and sufficient sense to go in
+search of food and have the power of selection.
+
+Life manifested in the lowest animal or plant is just as wonderful and
+hard to understand as that which pervades the higher animals.
+
+Some of the species of the fresh water _amoeba_ live in shells of
+various forms and patterns. One which we often see has a little house
+made of tiny particles of sand and minute bits of shell soldered
+together with a kind of cement which hardens in water; these are vase or
+pitcher-shaped and always look rough on the outside.
+
+  [Illustration: FIG. 2. TESTACEOUS FORMS OF AMOEBAN RHIZOPODS.]
+
+We may always know the different species by the forms and patterns of
+the shells in which they live. Some have very regular shells and
+prettily marked. These are usually rounded or arched on one side and
+flat on the other.
+
+When you are looking for various microscopic objects in pond water you
+will often see these tiny shells among the sediment on your slides, and
+if you will patiently wait a few moments you will soon see delicate,
+transparent arms slowly pushing out on every side like cautious feelers.
+(_Figure 2, Amoeba in Shell._--_Carpenter_, p. 445.)
+
+But the most beautiful forms, and by far the greatest variety of these
+microscopic shells are found in the ocean and in marine deposits. If we
+look at the seaweeds which grow on the rocks we may see many white
+specks adhering to every part of the plants. With a lens we find the
+minute specks are spiral shells of many species belonging to the class
+_Foraminifera_, and very closely allied to the _amoeba_. The shells
+are of most elegant form and pattern. The large sea-shells which we so
+much admire are not half so lovely in form or color as these seen
+through a microscope. Some of the living animals and the castles in
+which they dwell are crimson in color, others a delicate pink.
+
+Let us take one of these living shells while it clings to the sea-weed
+and carefully cut off the smallest portion of the plant to which it
+adheres, so as to disturb the occupant as little as possible; and now
+place it in the live box with some of the salt water and we shall soon
+have a most beautiful sight.
+
+See, the creature is throwing out delicate, transparent threads or
+filaments in every direction, like fine-spun glass. How charming it
+looks with the beautiful shell in the centre, surrounded by this moving,
+filmy halo, and how slowly and cautiously the filaments are extended! He
+is not a heedless, reckless creature, rushing into needless danger, but
+a quiet, timid citizen. Although he was such a long time throwing out
+his misty arms, when he scents danger he withdraws them as quick as a
+flash. The least jar of the live-box, or a little wriggling larva--much
+too large for him to manage, however--are sufficient to make him take in
+all of his lines; but when quiet is restored, they are again stretched
+out. And for what purpose are these slender filaments extended? Ah, an
+innocent animalcule has become entangled among the shimmering, filmy
+threads, and now the threads coalesce, run together like the arms of
+_amoeba_, and disappear, and the animalcule is drawn within the walls
+of the beautiful castle, and we are left to conjecture the fate of the
+little victim. _Figure 3, Rotalia Ornata_--which shows its delicate
+filaments extended.
+
+These tiny creatures have been so numerous way back in the early ages of
+the world, that entire strata of rocks, several feet in thickness, in
+various parts of the world, are made up of their skeletons. The city of
+Richmond, Virginia, is built over rocks, composed largely of the minute
+fossils of _Diatomaceae_ intermingled with the _Foraminifera_ and others.
+
+  [Illustration: FIG. 3. ROTALIA ORNATA.]
+
+A single prepared slide of these fossils will afford entertainment for
+an entire evening, so great is the diversity of form and so many
+hundreds on one slide. The Bahama Islands furnish the finest specimens
+of these fossils. The slides can be procured of any large dealer in
+optical instruments, or, what is still better, the young microscopist
+can soon learn to prepare them for himself, as ample directions are
+given in the books on the microscope.
+
+In bidding my young readers adieu I shall not lose entire thought of
+them, but often when I am engaged in looking through the microscope, I
+shall think and ask myself, "Are they, too, absorbed in this pleasant
+work, and how many will become true workers and original investigators
+in this great field?" We shall all know in due time, for no earnest
+worker in any branch of science can long remain unknown. He will be
+found out sooner or later. A devoted student in microscopy will become
+so happy over the marvellous creatures and their curious ways that he
+cannot keep his pleasure to himself.
+
+
+
+
+PART III
+
+A HOME-MADE MICROSCOPE, AND HOW TO USE IT
+
+BY FREDERICK LEROY SARGENT
+
+
+XIII.--HOW TO SEE A DANDELION.
+
+A simple microscope, some mounted needles, a sharp knife and a pair of
+small forceps, are the only things needed to begin with.
+
+There are many kinds of simple microscopes sold, some of which are of
+moderate price and answer every purpose; but if one has a little
+mechanical skill the cheapest way is to buy a magnifier and make the
+rest of the microscope one's self. What is known as the "bellows
+pattern," with three lenses, is one of the best of the cheaper forms of
+magnifiers, and is an admirable little instrument.
+
+_Fig. 1_ shows a home-made microscope ready for use. It will be seen
+that the main part consists of a wooden box having a hole in the top and
+open in front. To the back is attached a cork by means of a piece of
+thin metal as shown in _fig. 2_. Through this cord slides a rod on which
+slides another cork. A piece of brass wire has one end wound round the
+upper cork while the other end projects as an arm at right angles to the
+rod, and this projecting end sharpened and upturned, passes through
+holes drilled in the handle of the magnifier, and thus supports it. The
+lenses are focused, _i. e._ brought to the right distance from the
+object viewed, by sliding the cork up and down on the rod.
+
+  [Illustration: FIG. 1.]
+
+The object rests on a piece of glass laid over the hole in the top of
+the box. A piece of wood covered with white paper and placed below the
+object at an angle of about forty-five degrees answers for a reflector
+to illuminate those objects through which the light can pass. The pure
+white surface is better for the purpose than a mirror.
+
+  [Illustration: FIG. 2.]
+
+The most delicate part of the construction is making the holes in the
+corks for the rod to slide through. This may be done perfectly, however,
+by making the holes with a rat-tail file, trying the rod now and then
+until it moves just right. The best thing for the rod is a piece of
+brass wire one quarter of an inch thick; a lead pencil however is a good
+substitute. Before bending the end of the brass wire arm it is well to
+heat it red-hot at the point of bending, to take out the temper: as
+otherwise it may break. The holes in the handle of the magnifier should
+be drilled as near the front as possible and so arranged that when the
+magnifier is in position the smallest lens will be near the object.
+
+  [Illustration: FIG. 3.]
+
+The mounted needles are shown in _fig. 3_. One pair of each kind will be
+enough to start with. To make one, take a fine needle, break off about a
+third, so it will not be too long and springy; then with a pair of
+pincers force it into the handle point first, withdraw it and finally
+force it in again with the point out. It may be easily bent with the
+pincers by first heating it to redness in a flame. When bent, heat it
+red once more and plunge quickly into water to re-temper it. Rubbing on
+an oil stone may be necessary to remove roughness. Should the handles
+show any tendency to split, it would be well to wrap the end tightly
+with waxed thread.
+
+The forceps (_fig. 4_) may be purchased either of brass or steel at no
+great expense. Although not necessary it is more convenient to have them
+curved than straight.
+
+  [Illustration: FIG. 4.]
+
+If the reader will carefully follow the directions given below and
+endeavor to see for himself all the parts spoken of, he will probably
+have very little difficulty afterward in the use of the instruments just
+described; and the enjoyment he will have when he has learned how to
+examine little things, will amply repay for careful and persistent
+efforts at the start. Get a Dandelion in full bloom and also one that
+has gone to seed.
+
+Have the microscope and the other instruments ready for use. The best
+place to work is on a table in front of a window where there is plenty
+of light, but not the direct rays of the sun.
+
+Now cut the blossom in halves from the stem up. It will be seen that the
+stem is hollow and ends above in a cushion-like expansion. From the
+upper surface of this grow a number of little flowers, while from the
+sides there sprang two rows of little green organs that enclose the
+flower cluster like a cup. Remove one of the flowers with the forceps
+and place it in a drop of water on the glass stage of the microscope.
+Examine with one and one half inch power.[A]
+
+Be careful to get just the focus. You are now ready to see the general
+form of the flower. At the base is a little body with roughened sides
+and slightly narrowed above (the ovary). Springing from the top of the
+ovary are a number of fine bristles (the pappus). Inside the bristles is
+a yellow portion, tubular below and flat above (the corolla).
+Projecting from the tube of the corolla is a little yellow rod (the top
+of the stamens joined together); and coming from among the stamens are
+two slender recurved organs (the stigmas).
+
+Now take a mounted needle in each hand and holding one needle on the
+flat part of the corolla split open the tubular part with the other. By
+keeping the lower part spread open with the needles, you will see that a
+number of delicate yellow threads grow from the sides of the corolla and
+are connected with the yellow stamen rod. These threads are another part
+of the stamens. In the middle of the flower is a single thread-like
+organ (the style) which comes from the top of the ovary and passing
+through the stamens projects beyond them, divided into two stigmas.
+
+Most of my readers have probably studied enough botany to know the names
+of the different parts of a flower, but very likely many of them do not
+recognize the parts of the Dandelion flower as looking anything like the
+parts of the flower with which they are familiar.
+
+Before proceeding further, therefore let us take a Morning-Glory
+flower--which you all know and can easily obtain, or at least some
+flower like it--and let us see that the parts of the two correspond.
+
+Commencing in the centre we find in both a pistil, consisting of an
+ovary at the base and a stigma at the top and a style between. In the
+Dandelion the stigma is split in halves, while in the morning-glory it
+is not split but has three little knobs. Around the pistil come the
+stamens in each case. Each stamen is composed of two parts: a slender
+stem (the filament) and a little sac at the end (the anther) which is
+filled with pollen dust. In both cases the filaments grow out of the
+sides of the corolla. But while in the Morning-Glory the anthers are
+entirely free from one another, in the Dandelion they are joined
+together by their sides and form a tube around the style. The corolla in
+both cases is all of one piece, but in the Dandelion it is as if the
+upper part of the corolla were split open one side and then made flat.
+Instead of a green calyx as in the Morning-Glory, the Dandelion has a
+number of delicate white bristles. And, finally, in the Morning-Glory
+both the calyx and corolla grow out from below the ovary, while in the
+Dandelion its calyx of bristles and its corolla issue from above the
+ovary. So after all, you will see that corresponding organs are in both,
+and the difference between the two flowers is not so great as one might
+think at first.
+
+Let the different parts of the Dandelion be examined now more minutely.
+First take some of the bristles and examine them with one quarter inch
+power. They are not perfectly smooth, but are more or less saw-like on
+the edge. With the same power look at other parts of the flower; notice
+the hairiness of the stigmas, the pollen grains coming out of the
+anthers (some grains may be found on the stigmas) also the roughness of
+the ovary and the delicate ribs or veins in the corolla. Examine one of
+the seed-like fruits with one and one half inch power. It is a ripened
+ovary. Compare the fruit with the ovary of a flower. The nutlet has
+become hard, rougher and more strongly ribbed. The narrowed upper part
+of the ovary has become much elongated and the pappus is spread out like
+an inverted umbrella.
+
+Examine some bristles with one quarter inch power. They show the
+saw-like edges much more developed than in the younger bristles of the
+flower. We see throughout a beautiful adaptation of every part for
+fitting the little parachute to be carried long distances by the wind
+and finally to catch on some suitable place in which to sprout.
+
+
+XIV.--HOW TO SEE A BUMBLE BEE.
+
+You will first need to catch your Bumble Bee. A little chloroform poured
+on one will kill it instantly. Make a general examination at the outset
+of the insect. The outside of the body is horny and covered thickly with
+hairs. On the upper side the hairs are much more numerous than on the
+under side. The whole body is divided into three regions: the head,
+bearing the feelers and mouth-parts; a middle part (thorax) bearing the
+four wings and six legs; and a hind part (abdomen) armed with the sting.
+
+Remove the head and examine with one and one half inch power. At the
+sides are two prominent oval bodies (compound eyes) which seem to be
+crossed by five lines; near the top of the head, between the compound
+eyes, are three little shiny bead-like organs (simple eyes); starting
+from about the middle of the face are the two feelers (antennae) and at
+the lower part of the head are the mouth-parts. The sides, top and front
+of the head are all covered with hair.
+
+Examine one of the compound eyes with one fourth inch power. The surface
+is made up of innumerable little facets, something like a cut diamond.
+
+Cut off a piece of one of the compound eyes, remove some of the black
+pigment on the back and examine the piece in a drop of water. Each facet
+is a tiny hexagon. Some care is necessary to see them well.
+
+Remove an antenna and examine it with three fourths inch power. It is
+thickly covered with minute hairs which give it a velvety appearance.
+Count the joints. At the base is the longest joint; at the lower end of
+which is a little knob that fits into a socket in the head. The next
+joint is quite small while those beyond are much alike.
+
+Scrape the hairs from the face and examine the horny shell with three
+fourths inch power. The surface is full of little pits. In the upper
+part of the face there is a groove, in the middle of which is one of
+the simple eyes. Just below the antennae sockets is a groove which
+extends crosswise a short distance on either side and then bends
+downwards to the mouth. The portion of the face bounded by this groove
+is called the clypeus. At its lower part is hinged a little oblong piece
+(labium) which may be moved up and down with a needle.
+
+Melt a piece of sealing wax on the centre of a slip of glass (taking
+care not to break the glass by too sudden heating) and before the wax
+hardens press the head into it face downwards.
+
+Examine with one inch power. The hole near the top of the head shows the
+position of the neck. The portion of the head around this hole is
+destitute of hairs and is hollowed in, to make room for the rounded
+front part of the thorax. Below this one there is another cavity which
+contains a portion of the mouth parts when they are retracted. At each
+side of the mouth in front of the base of the sucking organs, are the
+two jaws (mandibles) each with a little tuft of hair on the outer side.
+The jaws move freely to and from each other, sideways instead of up and
+down as do the jaws of the higher animals. The sucking apparatus
+consists of five pieces viz: two outermost pieces each tapering to a
+fine point, two, each of which ends in three little joints and one in
+the centre which projects beyond the others. It may be necessary to
+spread these out with the needle, to see them well.
+
+Separate the thorax from the rest of the body. Scrape off the hairs on
+the back. Two principal grooves extend across the back, one near the
+front and one near the hind margin. The thorax is composed of three
+divisions and these grooves show where they are joined together. The
+hind division bears the hind wings and the hind pair of legs; the middle
+division, much the largest division of the three, bears the fore wings
+and the middle pair of legs; and the foremost division is quite small
+and bears only the front pair of legs.
+
+Remove the wings of one side and examine in a drop of water with one and
+one half inch power. The wings consist of a shining transparent membrane
+strengthened by numerous horny veins running through it. Examine with
+one half inch power. The membrane is seen to be covered with minute
+hairs and little dots. On the front edge of the hind wing a short
+distance from the outer end is a row of hooks. At a corresponding place
+on the hind edge of the fore wing there is a thickening or ridge. When
+flying, the hooks catch onto the ridge and thus the wings are held
+together and act as one large wing.
+
+Examine this grappling apparatus with one fourth inch power and with the
+needles hook the wings together and pull them apart. If you look through
+the magnifier while you do this you will get a good idea of the form of
+the ridge and of how the hooks catch onto it. Remove one of the
+forelegs, being sure that none remains attached to the body. Examine
+with one and one half inch power. The extremity is armed with two claws;
+then come four short joints followed by one about as long as the others
+together. All these make up the foot. The next joint above is the shank,
+then comes the thigh and then quite a small joint, the lower hip, and
+lastly attached to the body is the upper hip.
+
+Remove the last five joints of the foot (the claw part, and the other
+four joints) examine with one third inch power. The claws have each a
+branch projecting from the inner edge. Between the claws is a little
+velvety pad. Each of the small joints is covered with short closely
+appressed hairs and from the lower end of each joint project several
+spines. Now examine the remaining long joint of the foot attached to the
+shank. At the upper end of the inner side is a deep semicircular notch,
+the upper portion of which is light colored. Beside the notch is a
+peculiarly shaped movable spine which projects from the lower end of the
+shank. This queer arrangement is what the bee uses to clean his feelers.
+The reader has probably seen the operation performed by a bee or a wasp.
+The leg is thrown over the feeler, the latter is grasped at that
+particular bend of the leg where the cleansing apparatus is situated and
+then drawn through from base to tip; and this is repeated several times
+with each feeler.
+
+Examine with one and one half inch power a leg from each of the other
+pairs and compare the corresponding parts. They differ chiefly in size
+and in the absence of the cleansing apparatus. You cannot fail to
+admire the many beautiful forms of the different portions. On the outer
+side of the hind shank is a smooth flattish surface destitute of hairs,
+excepting a fringe of long ones at the margin. At this place may
+sometimes be found a sticky mass of pollen intended for bee-bread.
+Examine the abdomen with one and one half inch power. It is composed of
+several wings. If some of the hairs are scraped off this will be shown
+more clearly. From the hind extremity projects the sting.
+
+We have far from exhausted all the beautiful and interesting points in
+the make-up of a Bumble Bee, not even those that may be seen with the
+limited powers of a simple microscope; but probably enough has been said
+to show the reader that such things are well worthy of study and it is
+hoped that enough directions have been given to render future use of the
+instruments comparatively free from difficulty.
+
+
+XV.--SOME LITTLE THINGS TO SEE.
+
+There is no end to the beautiful and wonderful things one can see with
+the simple microscope. Only a few of the more attractive and easily
+obtained of these are now to be mentioned.
+
+To begin with, there are ever so many pretty flowers to look at. The
+asterworts, that is, such flowers as the daisy, aster, golden rod,
+dandelion and thistle, are particularly full of beauty. The blossoms are
+all made up of a number of little flowers as in the dandelion; but the
+shapes and colors and so forth, of the different kinds are exceedingly
+various. Some, such as the asters and daisies, have two kinds of flowers
+in the same blossom--flowers with strap-shaped corollas (like the
+dandelion's) are arranged along the margin of the blossom, while in the
+centre are little flowers with star-shaped corollas presenting a much
+different appearance. Flowers of many of the Parsley Family, for
+example wild carrot, wild parsnip and caraway, are quite odd. Very
+pretty flowers are found among the grasses, sedges and common weeds. The
+different trees as they bloom in spring--the maples, elms, willows,
+poplars, sassafras and hosts of others--all have flowers that are
+perfectly lovely. Most of these flowers need to be picked to pieces
+under the magnifier to show up their full beauty. The parts of flowers,
+both small and large ones, deserve attention. Frequently one meets with
+remarkable forms.
+
+Seeds are highly interesting. They are often handsomely marked with
+series of pits or projections, grooves or ridges. One meets with many
+curious appendages by means of which the seeds are carried off and sown
+at a distance from the plant. Some, like the dandelion, have a parachute
+attachment; others have wings to catch the wind, and others still are
+covered with hooked spines whereby they become attached to the fur of
+animals, there to remain until brushed off onto the ground.
+
+Leaves and stems sometimes have on them beautiful hairs and oil-glands.
+The wooly covering of common mullein, for example, is made up of
+innumerable slender-branched hairs. These show best when a piece of the
+leaf broken off is looked at edgewise.
+
+If you examine the fruit-dots on the backs of the different kinds of
+ferns you will be surprised to find how pretty they are and of how many
+different shapes. Sometimes the fruit is not borne on the back of the
+leaf but forms little clusters by themselves, which are sometimes at the
+end of the fern, sometimes in the middle, sometimes on a separate stalk.
+
+Mosses, lichens and sea-weeds are well worth looking at.
+
+Early in the summer an exquisite little fungus called "Cluster cups" may
+be found on the underside of barberry leaves. Hawthorn and other plants
+have handsome fungi on them later in the season.
+
+By observing closely while out in the fields or woods, one sees hovering
+about in swarms, myriads of tiny insects. Under the lens some of them
+are very odd, others very beautiful. The easiest way to catch these
+little midgets, is to wet the palm of the hand and then sweep it among
+them, or in the same way use a piece of sticky paper.
+
+The study of the different parts of insects is one of the most
+fascinating of the many uses of the Simple microscope. Although all
+insects are made up on the same general plan and corresponding organs
+occur in most of them, there is an endless variety in the forms under
+which we see the different organs and the uses to which they are put.
+
+Take for example the antennae. In the grasshopper it is long and
+threadlike; in the butterflies always ending in a knob; in moths always
+tapering to a point, although sometimes threadlike and sometimes much
+branched, forming a beautiful plume; in the beetles, sometimes fan-like,
+sometimes like a comb; and in other insects assuming still other forms.
+Insects' eyes are often colored beautifully. A horse-fly's eyes are
+striped. Butterflies' eyes have usually a soft liquid coloring, and
+moths' eyes in the dark shine like little fiery beads.
+
+The mouths of insects, such as beetles, grasshoppers and dragon flies,
+have strong jaws for biting; flies, bugs, moths and butterflies, have
+the mouth-parts transformed into sucking organs, while bees, wasps and
+the like have both sucking organs for honey, and biting organs for
+leaf-cutting, wood-tearing etc. as we saw was the case in the Bumble
+Bee.
+
+Butterflies' wings and moths' wings are covered with little scales of a
+variety of shapes. These should be examined attached to the wing to show
+their arrangement which is like that of shingles on a roof; but to show
+their form they should be looked at when brushed from the wing onto a
+piece of glass. Many other peculiarities may be noticed in the wings of
+other kinds of insects.
+
+Legs, the same as the other organs, have various forms, markings and
+appendages, and so it is with the abdomen and its stings or its
+egg-laying apparatus.
+
+The hairs of "Wooly Bears" and caterpillars of that kind are peculiarly
+branched.
+
+The four hind pairs of feet in caterpillars are armed each with a row
+of little hooks which are used in walking to get a firm hold. The larger
+caterpillars show the hooks best.
+
+Sometimes you will find pretty insect eggs on the underside of leaves or
+on stems, and also little silken cocoons in similar places. If you are
+near a pond-hole, or an old hogshead that collects rain water, you can
+find a good many little animals, some of them very frisky--young
+mosquitoes or "polywogs," water-fleas, cyclops, little worms, young
+dragon-flies and lots of others. When you go to collect them take a
+small wide-mouth bottle and, having found a place where there is what
+you want, lower your bottle, mouth down, in the midst of them and when
+it is well under water turn the mouth upwards. A good many of the
+animals will run in with the water. If the first time you do not get
+what you want, the second time you may. When you want to examine them at
+home you can fish them out with a glass tube and put them in a watch
+crystal or on the glass stage of the microscope. In using the tube take
+it between the thumb and middle and third fingers, and close the top
+with your first finger; then put the lower end of the tube in the water
+close to the thing you want to catch; now lift your first finger quickly
+and the water will run in the lower end of the tube carrying with it
+your little squirmer, unless he has been too quick for you. Close the
+top of your tube again and the water will not run out when you remove
+the tube, until you lift your finger. Sometimes it takes a good deal of
+patience and skill to catch the more agile of the little water animals.
+Glass tubes are sold in drug stores for five or ten cents.
+
+If you begin by examining the objects already spoken of, you will while
+looking for these be continually discovering for yourselves new objects
+possessing new beauties and will soon see that not half the interesting
+things you can find have been ever hinted at.
+
+The way to find out about all these things is to go out into the fields
+and woods, and form the habit of observing closely what is around you.
+Carry your magnifier along and look at this flower, that fern, this
+insect, that moss, with different powers of the magnifier; and when you
+come across any objects worthy of a more careful examination carry them
+home and examine them systematically with Simple microscope, needles,
+knife, and so forth. Insects may be kept well in alcohol until winter,
+and then careful studies may be made of them.
+
+When using the magnifier in the field, hold it in such a way that the
+smallest lens will be nearest the object when the lenses are combined
+and be careful not to shade the object with the hand or the hat brim.
+Just enough light should fall on the object to make its examination
+comfortable for the eyes. If you rest the hand holding the magnifier on
+the hand that holds the object, both lens and object can be held much
+steadier. When commencing to examine an object it is best to have the
+three lenses spread apart, for in this way you can use first the lowest
+power then those higher and finally, if you wish to, the three lenses
+combined. The dissecting forceps are very handy to have in the field,
+both for picking up anything too small for the fingers and for holding
+an object to be examined.
+
+A collection of some of these little things preserved and ready for
+examination adds greatly to the pleasures of studying them. Of course
+all the different kinds of objects cannot be preserved so as to show
+their full beauty, but many can be and the following directions will
+tell how to make a very good collection:
+
+Seeds, fern-fruit, insects and other opaque objects like these may be
+mounted on pasteboard slides. One of these slides consists simply of a
+stout piece of pasteboard, having a hole cut in the centre and a piece
+of thick paper or cardboard glued on the under side. The object is
+attached to the cardboard at the bottom of the hole.
+
+It is best to make a number of these slides at a time. Having procured
+some quite thick pasteboard, from old paper boxes, rule lines on the
+surface dividing it up into spaces three inches long by one inch wide.
+In the centre of each space cut out a hole about half an inch in
+diameter. A sharp knife will make a neat square hole or a good round one
+may be made with a gun-wad punch. This done, the spaces may be cut apart
+with a sharp knife and ruler, along the lines already drawn. Pieces of
+cardboard for the backs should be cut a trifle larger than the
+pasteboard portion of the slide; after they are glued onto the latter
+they may be trimmed down neatly with a pair of scissors. Glue or
+mucilage containing glycerine (in the proportion of one or two
+teaspoonfuls to an ordinary bottle of mucilage) is the best thing to use
+for sticking on the backs. While the slides are drying they should be
+either under a weight or in a clamp screwed up tightly, so as to prevent
+their twisting out of shape. The mucilage may be prevented from being
+squeezed in round the edges of the hole, by taking care when putting it
+on not to have it come too near the hole. One or two coats of India Ink
+may be painted on the middle of some of the pieces of cardboard, either
+before or after they are put onto the slides; and thus a black
+background may be obtained for the lighter-colored opaque objects. Many
+of the objects will however show best on a white background.
+
+When you have the slides all made, nothing more is needed to mount an
+object, than simply to attach it to the bottom of the hole with a
+little mucilage and glycerine, or something of that sort, and finally to
+write the name of the object on the front part of the slide, and on the
+back any desirable notes. A good way to mount such objects as fine seeds
+is to put them in the hole loosely and then cover them with a piece of
+mica such as will be spoken of presently.
+
+Objects which are to be examined by the light shining through them, for
+example a bee's wing or a butterfly's scales, must be mounted on glass
+slides.
+
+A glass slide three inches by one is taken, on the centre is placed the
+object; over this is laid a thin piece of clear mica three fourths of an
+inch square, and this is attached to the glass by pasting narrow strips
+of tissue paper around the edges of the cover, partly on the cover and
+partly on the slide. Finally the slide is covered with some pretty
+colored paper and labeled.
+
+Two pieces of paper are needed to cover each slide. One for the under
+part is cut about one and one half by three and one half inches, with a
+hole in the centre (round or square). This piece is first pasted on,
+the corners being cut and the edges brought over onto the front. The
+upper piece, which has a hole in the centre similar to that in the lower
+piece, and is cut a trifle larger than the three by one inch slide, is
+next pasted on so that the hole will correspond with the one below. The
+upper piece of paper is now trimmed down to the slide and the label
+attached. Window glass will answer for the slides and you can get any
+glazier to cut up a piece for you into the right-sized slips. Mica can
+be bought at a stove store, in sheets which may be cut up into three
+fourths of an inch squares with a pair of scissors. The mica should be
+as clear as you can get it. You will find it handy to have some tissue
+paper all mucilaged like postage stamps and cut up in strips the right
+size ready to use. The same may be said of the colored paper covers and
+the labels.
+
+The dust may be excluded from the uncovered opaque objects by keeping
+the mounted slides in small groups, held together by elastic bands. This
+will also serve to classify them so that all the insects will be
+together, all the seeds, and so on; and the transparent slides may also
+be treated in the same way. When an elastic band wears out, it is no
+great trouble to replace it.
+
+In working with the Simple microscope there is a fine chance to display
+ingenuity, not only in making the instruments and mounting the objects
+but in discovering new things to look at and in seeing how much can be
+found out about those things which are the most common.
+
+
+
+
+FOOTNOTES:
+
+[A] In these directions "1-1/2 _in._ power" means a lens having
+  a focus of 1-1/2 inches; "1/2 _in._ power" means a lens or combination
+  of lenses having a focus of 1/2 inch; and so on. All the different
+  powers mentioned in the directions may be obtained in the small-sized
+  3-lens, bellows form magnifier, either by using the lenses singly or
+  combined in different ways. The magnifying power of any single lens or
+  simple combination is easily found by dividing 10, by the focus in
+  inches. Thus the magnifying power of a 1/2 _in._ lens is found in this
+  way: 10/1/2 = 10x2/1 20. The lens magnifies therefore 20 diameters
+  _i. e._ makes an object appear twenty times as long and twenty times as
+  broad as it is.
+
+
+
+
+TRANSCRIBER'S NOTES:
+
+
+Text in italics is surrounded with underscores: _italics_.
+
+Inconsistencies in hyphenation have been retained from the original.
+
+Obvious typographical errors have been corrected as follows:
+
+  Page 8: hundreth changed to hundredth
+  Page 11: iustrument changed to instrument
+  Page 15: diferent changed to different
+  Page 17: he changed to the
+  Page 20: wil changed to will
+  Page 44: or changed to of
+  Page 72: staightened changed to straightened
+  Page 86: DIFFRENT changed to DIFFERENT
+  Page 125: fouths changed to fourths
+
+
+
+
+
+End of the Project Gutenberg EBook of Through a Microscope, by
+Samuel Wells and Mary Treat and Frederick Leroy Sargent
+
+*** END OF THIS PROJECT GUTENBERG EBOOK THROUGH A MICROSCOPE ***
+
+***** This file should be named 38428.txt or 38428.zip *****
+This and all associated files of various formats will be found in:
+        https://www.gutenberg.org/3/8/4/2/38428/
+
+Produced by Chris Curnow, David E. Brown and the Online
+Distributed Proofreading Team at https://www.pgdp.net (This
+file was produced from images generously made available
+by The Internet Archive)
+
+
+Updated editions will replace the previous one--the old editions
+will be renamed.
+
+Creating the works from public domain print editions means that no
+one owns a United States copyright in these works, so the Foundation
+(and you!) can copy and distribute it in the United States without
+permission and without paying copyright royalties.  Special rules,
+set forth in the General Terms of Use part of this license, apply to
+copying and distributing Project Gutenberg-tm electronic works to
+protect the PROJECT GUTENBERG-tm concept and trademark.  Project
+Gutenberg is a registered trademark, and may not be used if you
+charge for the eBooks, unless you receive specific permission.  If you
+do not charge anything for copies of this eBook, complying with the
+rules is very easy.  You may use this eBook for nearly any purpose
+such as creation of derivative works, reports, performances and
+research.  They may be modified and printed and given away--you may do
+practically ANYTHING with public domain eBooks.  Redistribution is
+subject to the trademark license, especially commercial
+redistribution.
+
+
+
+*** START: FULL LICENSE ***
+
+THE FULL PROJECT GUTENBERG LICENSE
+PLEASE READ THIS BEFORE YOU DISTRIBUTE OR USE THIS WORK
+
+To protect the Project Gutenberg-tm mission of promoting the free
+distribution of electronic works, by using or distributing this work
+(or any other work associated in any way with the phrase "Project
+Gutenberg"), you agree to comply with all the terms of the Full Project
+Gutenberg-tm License (available with this file or online at
+https://gutenberg.org/license).
+
+
+Section 1.  General Terms of Use and Redistributing Project Gutenberg-tm
+electronic works
+
+1.A.  By reading or using any part of this Project Gutenberg-tm
+electronic work, you indicate that you have read, understand, agree to
+and accept all the terms of this license and intellectual property
+(trademark/copyright) agreement.  If you do not agree to abide by all
+the terms of this agreement, you must cease using and return or destroy
+all copies of Project Gutenberg-tm electronic works in your possession.
+If you paid a fee for obtaining a copy of or access to a Project
+Gutenberg-tm electronic work and you do not agree to be bound by the
+terms of this agreement, you may obtain a refund from the person or
+entity to whom you paid the fee as set forth in paragraph 1.E.8.
+
+1.B.  "Project Gutenberg" is a registered trademark.  It may only be
+used on or associated in any way with an electronic work by people who
+agree to be bound by the terms of this agreement.  There are a few
+things that you can do with most Project Gutenberg-tm electronic works
+even without complying with the full terms of this agreement.  See
+paragraph 1.C below.  There are a lot of things you can do with Project
+Gutenberg-tm electronic works if you follow the terms of this agreement
+and help preserve free future access to Project Gutenberg-tm electronic
+works.  See paragraph 1.E below.
+
+1.C.  The Project Gutenberg Literary Archive Foundation ("the Foundation"
+or PGLAF), owns a compilation copyright in the collection of Project
+Gutenberg-tm electronic works.  Nearly all the individual works in the
+collection are in the public domain in the United States.  If an
+individual work is in the public domain in the United States and you are
+located in the United States, we do not claim a right to prevent you from
+copying, distributing, performing, displaying or creating derivative
+works based on the work as long as all references to Project Gutenberg
+are removed.  Of course, we hope that you will support the Project
+Gutenberg-tm mission of promoting free access to electronic works by
+freely sharing Project Gutenberg-tm works in compliance with the terms of
+this agreement for keeping the Project Gutenberg-tm name associated with
+the work.  You can easily comply with the terms of this agreement by
+keeping this work in the same format with its attached full Project
+Gutenberg-tm License when you share it without charge with others.
+
+1.D.  The copyright laws of the place where you are located also govern
+what you can do with this work.  Copyright laws in most countries are in
+a constant state of change.  If you are outside the United States, check
+the laws of your country in addition to the terms of this agreement
+before downloading, copying, displaying, performing, distributing or
+creating derivative works based on this work or any other Project
+Gutenberg-tm work.  The Foundation makes no representations concerning
+the copyright status of any work in any country outside the United
+States.
+
+1.E.  Unless you have removed all references to Project Gutenberg:
+
+1.E.1.  The following sentence, with active links to, or other immediate
+access to, the full Project Gutenberg-tm License must appear prominently
+whenever any copy of a Project Gutenberg-tm work (any work on which the
+phrase "Project Gutenberg" appears, or with which the phrase "Project
+Gutenberg" is associated) is accessed, displayed, performed, viewed,
+copied or distributed:
+
+This eBook is for the use of anyone anywhere at no cost and with
+almost no restrictions whatsoever.  You may copy it, give it away or
+re-use it under the terms of the Project Gutenberg License included
+with this eBook or online at www.gutenberg.org
+
+1.E.2.  If an individual Project Gutenberg-tm electronic work is derived
+from the public domain (does not contain a notice indicating that it is
+posted with permission of the copyright holder), the work can be copied
+and distributed to anyone in the United States without paying any fees
+or charges.  If you are redistributing or providing access to a work
+with the phrase "Project Gutenberg" associated with or appearing on the
+work, you must comply either with the requirements of paragraphs 1.E.1
+through 1.E.7 or obtain permission for the use of the work and the
+Project Gutenberg-tm trademark as set forth in paragraphs 1.E.8 or
+1.E.9.
+
+1.E.3.  If an individual Project Gutenberg-tm electronic work is posted
+with the permission of the copyright holder, your use and distribution
+must comply with both paragraphs 1.E.1 through 1.E.7 and any additional
+terms imposed by the copyright holder.  Additional terms will be linked
+to the Project Gutenberg-tm License for all works posted with the
+permission of the copyright holder found at the beginning of this work.
+
+1.E.4.  Do not unlink or detach or remove the full Project Gutenberg-tm
+License terms from this work, or any files containing a part of this
+work or any other work associated with Project Gutenberg-tm.
+
+1.E.5.  Do not copy, display, perform, distribute or redistribute this
+electronic work, or any part of this electronic work, without
+prominently displaying the sentence set forth in paragraph 1.E.1 with
+active links or immediate access to the full terms of the Project
+Gutenberg-tm License.
+
+1.E.6.  You may convert to and distribute this work in any binary,
+compressed, marked up, nonproprietary or proprietary form, including any
+word processing or hypertext form.  However, if you provide access to or
+distribute copies of a Project Gutenberg-tm work in a format other than
+"Plain Vanilla ASCII" or other format used in the official version
+posted on the official Project Gutenberg-tm web site (www.gutenberg.org),
+you must, at no additional cost, fee or expense to the user, provide a
+copy, a means of exporting a copy, or a means of obtaining a copy upon
+request, of the work in its original "Plain Vanilla ASCII" or other
+form.  Any alternate format must include the full Project Gutenberg-tm
+License as specified in paragraph 1.E.1.
+
+1.E.7.  Do not charge a fee for access to, viewing, displaying,
+performing, copying or distributing any Project Gutenberg-tm works
+unless you comply with paragraph 1.E.8 or 1.E.9.
+
+1.E.8.  You may charge a reasonable fee for copies of or providing
+access to or distributing Project Gutenberg-tm electronic works provided
+that
+
+- You pay a royalty fee of 20% of the gross profits you derive from
+     the use of Project Gutenberg-tm works calculated using the method
+     you already use to calculate your applicable taxes.  The fee is
+     owed to the owner of the Project Gutenberg-tm trademark, but he
+     has agreed to donate royalties under this paragraph to the
+     Project Gutenberg Literary Archive Foundation.  Royalty payments
+     must be paid within 60 days following each date on which you
+     prepare (or are legally required to prepare) your periodic tax
+     returns.  Royalty payments should be clearly marked as such and
+     sent to the Project Gutenberg Literary Archive Foundation at the
+     address specified in Section 4, "Information about donations to
+     the Project Gutenberg Literary Archive Foundation."
+
+- You provide a full refund of any money paid by a user who notifies
+     you in writing (or by e-mail) within 30 days of receipt that s/he
+     does not agree to the terms of the full Project Gutenberg-tm
+     License.  You must require such a user to return or
+     destroy all copies of the works possessed in a physical medium
+     and discontinue all use of and all access to other copies of
+     Project Gutenberg-tm works.
+
+- You provide, in accordance with paragraph 1.F.3, a full refund of any
+     money paid for a work or a replacement copy, if a defect in the
+     electronic work is discovered and reported to you within 90 days
+     of receipt of the work.
+
+- You comply with all other terms of this agreement for free
+     distribution of Project Gutenberg-tm works.
+
+1.E.9.  If you wish to charge a fee or distribute a Project Gutenberg-tm
+electronic work or group of works on different terms than are set
+forth in this agreement, you must obtain permission in writing from
+both the Project Gutenberg Literary Archive Foundation and Michael
+Hart, the owner of the Project Gutenberg-tm trademark.  Contact the
+Foundation as set forth in Section 3 below.
+
+1.F.
+
+1.F.1.  Project Gutenberg volunteers and employees expend considerable
+effort to identify, do copyright research on, transcribe and proofread
+public domain works in creating the Project Gutenberg-tm
+collection.  Despite these efforts, Project Gutenberg-tm electronic
+works, and the medium on which they may be stored, may contain
+"Defects," such as, but not limited to, incomplete, inaccurate or
+corrupt data, transcription errors, a copyright or other intellectual
+property infringement, a defective or damaged disk or other medium, a
+computer virus, or computer codes that damage or cannot be read by
+your equipment.
+
+1.F.2.  LIMITED WARRANTY, DISCLAIMER OF DAMAGES - Except for the "Right
+of Replacement or Refund" described in paragraph 1.F.3, the Project
+Gutenberg Literary Archive Foundation, the owner of the Project
+Gutenberg-tm trademark, and any other party distributing a Project
+Gutenberg-tm electronic work under this agreement, disclaim all
+liability to you for damages, costs and expenses, including legal
+fees.  YOU AGREE THAT YOU HAVE NO REMEDIES FOR NEGLIGENCE, STRICT
+LIABILITY, BREACH OF WARRANTY OR BREACH OF CONTRACT EXCEPT THOSE
+PROVIDED IN PARAGRAPH 1.F.3.  YOU AGREE THAT THE FOUNDATION, THE
+TRADEMARK OWNER, AND ANY DISTRIBUTOR UNDER THIS AGREEMENT WILL NOT BE
+LIABLE TO YOU FOR ACTUAL, DIRECT, INDIRECT, CONSEQUENTIAL, PUNITIVE OR
+INCIDENTAL DAMAGES EVEN IF YOU GIVE NOTICE OF THE POSSIBILITY OF SUCH
+DAMAGE.
+
+1.F.3.  LIMITED RIGHT OF REPLACEMENT OR REFUND - If you discover a
+defect in this electronic work within 90 days of receiving it, you can
+receive a refund of the money (if any) you paid for it by sending a
+written explanation to the person you received the work from.  If you
+received the work on a physical medium, you must return the medium with
+your written explanation.  The person or entity that provided you with
+the defective work may elect to provide a replacement copy in lieu of a
+refund.  If you received the work electronically, the person or entity
+providing it to you may choose to give you a second opportunity to
+receive the work electronically in lieu of a refund.  If the second copy
+is also defective, you may demand a refund in writing without further
+opportunities to fix the problem.
+
+1.F.4.  Except for the limited right of replacement or refund set forth
+in paragraph 1.F.3, this work is provided to you 'AS-IS' WITH NO OTHER
+WARRANTIES OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO
+WARRANTIES OF MERCHANTIBILITY OR FITNESS FOR ANY PURPOSE.
+
+1.F.5.  Some states do not allow disclaimers of certain implied
+warranties or the exclusion or limitation of certain types of damages.
+If any disclaimer or limitation set forth in this agreement violates the
+law of the state applicable to this agreement, the agreement shall be
+interpreted to make the maximum disclaimer or limitation permitted by
+the applicable state law.  The invalidity or unenforceability of any
+provision of this agreement shall not void the remaining provisions.
+
+1.F.6.  INDEMNITY - You agree to indemnify and hold the Foundation, the
+trademark owner, any agent or employee of the Foundation, anyone
+providing copies of Project Gutenberg-tm electronic works in accordance
+with this agreement, and any volunteers associated with the production,
+promotion and distribution of Project Gutenberg-tm electronic works,
+harmless from all liability, costs and expenses, including legal fees,
+that arise directly or indirectly from any of the following which you do
+or cause to occur: (a) distribution of this or any Project Gutenberg-tm
+work, (b) alteration, modification, or additions or deletions to any
+Project Gutenberg-tm work, and (c) any Defect you cause.
+
+
+Section  2.  Information about the Mission of Project Gutenberg-tm
+
+Project Gutenberg-tm is synonymous with the free distribution of
+electronic works in formats readable by the widest variety of computers
+including obsolete, old, middle-aged and new computers.  It exists
+because of the efforts of hundreds of volunteers and donations from
+people in all walks of life.
+
+Volunteers and financial support to provide volunteers with the
+assistance they need are critical to reaching Project Gutenberg-tm's
+goals and ensuring that the Project Gutenberg-tm collection will
+remain freely available for generations to come.  In 2001, the Project
+Gutenberg Literary Archive Foundation was created to provide a secure
+and permanent future for Project Gutenberg-tm and future generations.
+To learn more about the Project Gutenberg Literary Archive Foundation
+and how your efforts and donations can help, see Sections 3 and 4
+and the Foundation web page at https://www.pglaf.org.
+
+
+Section 3.  Information about the Project Gutenberg Literary Archive
+Foundation
+
+The Project Gutenberg Literary Archive Foundation is a non profit
+501(c)(3) educational corporation organized under the laws of the
+state of Mississippi and granted tax exempt status by the Internal
+Revenue Service.  The Foundation's EIN or federal tax identification
+number is 64-6221541.  Its 501(c)(3) letter is posted at
+https://pglaf.org/fundraising.  Contributions to the Project Gutenberg
+Literary Archive Foundation are tax deductible to the full extent
+permitted by U.S. federal laws and your state's laws.
+
+The Foundation's principal office is located at 4557 Melan Dr. S.
+Fairbanks, AK, 99712., but its volunteers and employees are scattered
+throughout numerous locations.  Its business office is located at
+809 North 1500 West, Salt Lake City, UT 84116, (801) 596-1887, email
+business@pglaf.org.  Email contact links and up to date contact
+information can be found at the Foundation's web site and official
+page at https://pglaf.org
+
+For additional contact information:
+     Dr. Gregory B. Newby
+     Chief Executive and Director
+     gbnewby@pglaf.org
+
+
+Section 4.  Information about Donations to the Project Gutenberg
+Literary Archive Foundation
+
+Project Gutenberg-tm depends upon and cannot survive without wide
+spread public support and donations to carry out its mission of
+increasing the number of public domain and licensed works that can be
+freely distributed in machine readable form accessible by the widest
+array of equipment including outdated equipment.  Many small donations
+($1 to $5,000) are particularly important to maintaining tax exempt
+status with the IRS.
+
+The Foundation is committed to complying with the laws regulating
+charities and charitable donations in all 50 states of the United
+States.  Compliance requirements are not uniform and it takes a
+considerable effort, much paperwork and many fees to meet and keep up
+with these requirements.  We do not solicit donations in locations
+where we have not received written confirmation of compliance.  To
+SEND DONATIONS or determine the status of compliance for any
+particular state visit https://pglaf.org
+
+While we cannot and do not solicit contributions from states where we
+have not met the solicitation requirements, we know of no prohibition
+against accepting unsolicited donations from donors in such states who
+approach us with offers to donate.
+
+International donations are gratefully accepted, but we cannot make
+any statements concerning tax treatment of donations received from
+outside the United States.  U.S. laws alone swamp our small staff.
+
+Please check the Project Gutenberg Web pages for current donation
+methods and addresses.  Donations are accepted in a number of other
+ways including including checks, online payments and credit card
+donations.  To donate, please visit: https://pglaf.org/donate
+
+
+Section 5.  General Information About Project Gutenberg-tm electronic
+works.
+
+Professor Michael S. Hart was the originator of the Project Gutenberg-tm
+concept of a library of electronic works that could be freely shared
+with anyone.  For thirty years, he produced and distributed Project
+Gutenberg-tm eBooks with only a loose network of volunteer support.
+
+
+Project Gutenberg-tm eBooks are often created from several printed
+editions, all of which are confirmed as Public Domain in the U.S.
+unless a copyright notice is included.  Thus, we do not necessarily
+keep eBooks in compliance with any particular paper edition.
+
+
+Most people start at our Web site which has the main PG search facility:
+
+     https://www.gutenberg.org
+
+This Web site includes information about Project Gutenberg-tm,
+including how to make donations to the Project Gutenberg Literary
+Archive Foundation, how to help produce our new eBooks, and how to
+subscribe to our email newsletter to hear about new eBooks.
diff --git a/38428.zip b/38428.zip
new file mode 100644
index 0000000..812b085
--- /dev/null
+++ b/38428.zip
diff --git a/LICENSE.txt b/LICENSE.txt
new file mode 100644
index 0000000..6312041
--- /dev/null
+++ b/LICENSE.txt
@@ -0,0 +1,11 @@
+This eBook, including all associated images, markup, improvements,
+metadata, and any other content or labor, has been confirmed to be
+in the PUBLIC DOMAIN IN THE UNITED STATES.
+
+Procedures for determining public domain status are described in
+the "Copyright How-To" at https://www.gutenberg.org.
+
+No investigation has been made concerning possible copyrights in
+jurisdictions other than the United States. Anyone seeking to utilize
+this eBook outside of the United States should confirm copyright
+status under the laws that apply to them.
diff --git a/README.md b/README.md
new file mode 100644
index 0000000..10f59d8
--- /dev/null
+++ b/README.md
@@ -0,0 +1,2 @@
+Project Gutenberg (https://www.gutenberg.org) public repository for
+eBook #38428 (https://www.gutenberg.org/ebooks/38428)