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+The History and Practice of the Art of Photography by Snelling
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+October, 1994  [Etext #168]
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+The History and Practice of the Art of Photography
+by Henry H. Snelling
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+
+
+The Project Gutenberg Etext of The History and Practice of the Art of Photography
+
+
+THE HISTORY AND PRACTICE OF THE ART OF PHOTOGRAPHY;
+
+OR THE PRODUCTION OF PICTURES THROUGH THE AGENCY OF LIGHT.
+
+CONTAINING ALL THE INSTRUCTIONS NECESSARY FOR THE COMPLETE
+PRACTICE OF THE DAGUERREAN AND PHOTOGENIC ART, BOTH ON METALIC,
+PLATES AND ON PAPER.
+
+By HENRY H. SNELLING.
+
+ILLUSTRATED WITH WOOD CUTS.
+
+New York:  PUBLISHED BY G. P. PUTNAM, 155 Broadway, 1849.
+
+
+Entered according to act of Congress in the year 1849, by H. H. Snelling,
+in the Clerk's office, of the District Court of the Southern District
+of New York.
+
+New York:  PRINTED BY BUSTEED & McCOY, 163 Fulton Street.
+
+
+TO EDWARD ANTHONY, ESQ., AN ESTEEMED FRIEND.
+
+Whose gentlemanly deportment, liberal feelings, and strict integrity
+have secured him a large circle of friends, this work is Respectfully
+Dedicated By the AUTHOR.
+
+
+
+
+
+                            PREFACE.
+
+
+
+The object of this little work is to fill a void much complained
+of by Daguerreotypists--particularly young beginers.
+
+The author has waited a long time in hopes that some more able pen
+would be devoted to the subject, but the wants of the numerous,
+and constantly increasing, class, just mentioned, induces him
+to wait no longer.
+
+All the English works on the subject--particularly on the practical
+application, of Photogenic drawing--are deficient in many minute details,
+which are essential to a complete understanding of the art.
+Many of their methods of operating are entirely different from,
+and much inferior to, those practised in the United States:
+their apparatus, also, cannot compare with ours for completeness,
+utility or simplicity.
+
+I shall, therefore, confine myself principally--so far as Photogenic
+drawing upon metalic plates is concerned--to the methods
+practised by the most celebrated and experienced operators,
+drawing upon French and English authority only in cases
+where I find it essential to the purpose for which I design
+my work, namely:  furnishing a complete system of Photography;
+such an one as will enable any gentleman, or lady, who may wish
+to practise the art, for profit or amusement, to do so without
+the trouble and expense of seeking instruction from professors,
+which in many cases within my own knowledge has prevented
+persons from embracing the profession.
+
+To English authors I am principally indebted for that portion
+of my work relating to Photogenic drawing on paper.
+To them we owe nearly all the most important improvements in that
+branch of the art.  Besides, it has been but seldom attempted
+in the United States, and then without any decided success.
+Of these attempts I shall speak further in the Historical
+portion of this volume.
+
+Every thing essential, therefore, to a complete knowledge of the whole art,
+comprising all the most recent discoveries and improvements down to the day
+of publication will be found herein laid down.
+
+
+
+
+INTRODUCTION
+
+
+
+
+ New York, January 27, 1849.
+ E. ANTHONY, ESQ.
+
+Dear Sir,--In submiting the accompanying "History and Practice
+of Photography to your perusal, and for your approbation, I do
+so with the utmost confidence in your ability as a practical man,
+long engaged in the science of which it treats, as well as your
+knowledge of the sciences generally; as well as your regard for candor.
+To you, therefore, I leave the decision whether or no I have
+accomplished my purpose, and produced a work which may not only
+be of practical benefit to the Daguerrean artist, but of general
+interest to the reading public, and your decision will influence
+me in offering it for, or withholding it from, publication.
+
+If it meets your approbation, I would most respectfully ask permission
+to dedicate it to you, subscribing myself,
+ With esteem,
+ Ever truly yours,
+ HENRY H. SNELLING
+
+
+ New York, February 1st, 1849.
+ Mr. H. H. SNELLING.
+
+Dear Sir--Your note of January 27th, requesting permission
+to dedicate to me your "History and Practice of Photography,"
+I esteem a high compliment, particularly since I have read
+the manuscript of your work.
+
+Such a treatise has long been needed, and the manner in which you have handled
+the subject will make the book as interesting to the reading public as it
+is valuable to the Daguerrean artist, or the amateur dabbler in Photography.
+I have read nearly all of the many works upon this art that have emanated
+from the London and Paris presses, and I think the reader will find in yours
+the pith of them all, with much practical and useful information that I
+do not remember to have seen communicated elsewhere.
+
+There is much in it to arouse the reflective and inventive
+faculties of our Daguerreotypists.  They have heretofore stumbled
+along with very little knowledge of the true theory of their art,
+and yet the quality of their productions is far in advance
+of those of the French and English artists, most of whose
+establishments I have had the pleasure of visiting I feel therefore,
+that when a sufficient amount of theoretic knowledge shall have
+been added to this practical skill on the part of our operators,
+and when they shall have been made fully acquainted with what has
+been attained or attempted by others, a still greater advance
+in the art will be manifested.
+
+A GOOD Daguerreotypist is by no means a mere machine following
+a certain set of fixed rules.  Success in this art requires
+personal skill and artistic taste to a much greater degree
+than the unthinking public generally imagine; in fact more than
+is imagined by nine-tenths of the Daguerreotypists themselves.
+And we see as a natural result, that while the business numbers
+its thousands of votaries, but few rise to any degree of eminence.
+It is because they look upon their business as a mere mechanical
+operation, and having no aim or pride beyond the earning of their
+daily bread, they calculate what will be a fair per centage
+on the cost of their plate, case, and chemicals, leaving MIND,
+which is as much CAPITAL as anything else (where it is exercised,)
+entirely out of the question.
+
+The art of taking photographs on PAPER, of which your work
+treats at considerable length, has as yet attracted but little
+attention in this country, though destined, as I fully believe,
+to attain an importance far superior to that to which the
+Daguerreotype has risen.
+
+The American mind needs a waking up upon the subject, and I
+think your book will give a powerful impulse in this direction.
+In Germany a high degree of perfection has been reached,
+and I hope your countrymen will not be slow to follow.
+
+Your interesting account of the experiments of Mr. Wattles
+was entirely new to me, and is another among the many evidences
+that when the age is fully ripe for any great discovery,
+it is rare that it does not occur to more than a single mind.
+
+Trusting that your work will meet with the encouragement which your trouble
+in preparing it deserves, and with gratitude for the undeserved compliment
+paid to me in its dedication,
+
+ I remain, very sincerely,
+ Your friend and well wisher,
+ E. ANTHONY.
+
+
+
+PHOTOGRAPHY.
+
+CHAP. I.
+
+A BRIEF HISTORY OF THE ART.
+
+
+As in all cases of great and valuable inventions in science and art
+the English lay claim to the honor of having first discovered
+that of Photogenic drawing.  But we shall see in the progress
+of this history, that like many other assumptions of their authors,
+priority in this is no more due them, then the invention of steamboats,
+or the cotton gin.
+
+This claim is founded upon the fact that in 1802 Mr. Wedgwood
+recorded an experiment in the Journal of the Royal Institution
+of the following nature.
+
+"A piece of paper, or other convenient material, was placed upon
+a frame and sponged over with a solution of nitrate of silver;
+it was then placed behind a painting on glass and the light traversing
+the painting produced a kind of copy upon the prepared paper,
+those parts in which the rays were least intercepted being
+of the darkest hues.  Here, however, terminated the experiment;
+for although both Mr. Wedgwood and Sir Humphry Davey experimented
+carefully, for the purpose of endeavoring to fix the drawings
+thus obtained, yet the object could not be accomplished,
+and the whole ended in failure."
+
+This, by their own showing, was the earliest attempt of the English savans.
+But this much of the principle was known to the Alchemists at an early date--
+although practically produced in another way--as the following experiment,
+to be found in old books, amply proves.
+
+"Dissolve chalk in aquafortis to the consistence of milk, and add to it
+a strong solution of silver; keep this liquor in a glass bottle well stopped;
+then cutting out from a piece of paper the letters you would have appear,
+paste it on the decanter, and lay it in the sun's rays in such a manner
+that the rays may pass through the spaces cut out of the paper and fall
+on the surface of the liquor the part of the glass through which the rays
+pass will be turned black, while that under the paper remains white;
+but particular care must be observed that the bottle be not moved
+during the operation."
+
+Had not the alchemists been so intent upon the desire to discover
+the far famed philosopher's stone, as to make them unmindful
+of the accidental dawnings of more valuable discoveries,
+this little experiment in chemistry might have induced them
+to prosecute a more thorough search into the principle,
+and Photogenic art would not now, as it is, be a new one.
+
+It is even asserted that the Jugglers of India were for many ages
+in possession of a secret by which they were enabled, in a brief space,
+to copy the likeness of any individual by the action of light.
+This fact, if fact it be, may account for the celebrated magic
+mirrors said to be possessed by these jugglers, and probable cause
+of their power over the people.
+
+However, as early as 1556 the fact was established that a combination
+of chloride and silver. called, from its appearance, horn silver,
+was blackened by the sun's rays; and in the latter part of the last
+century Mrs. Fulhame published an experiment by which a change
+of color was effected in the chloride of gold by the agency of light;
+and gave it as her opinion that words might be written in this way.
+These incidents are considered as the first steps towards the discovery
+of the Photogenic art.
+
+Mr. Wedgwood's experiments can scarcely be said to be any improvement
+on them since he failed to bring them to practical usefulness,
+and his countrymen will have to be satisfied with awarding
+the honor of its complete adaptation to practical purposes, to MM.
+Niepce and Daguerre of France, and to Professors Draper,
+and Morse of New-York.
+
+These gentlemen--MM.  Niepce and Daguerre--pursued the subject simultaneously,
+without either, however being aware of the experiments of his colleague
+in science.  For several years, each pursued his researches individually
+until chance made them acquainted, when they entered into co-partnership,
+and conjointly brought the art almost to perfection.
+
+M. Niepce presented his first paper on the subject to the Royal
+Society in 1827, naming his discovery Heliography.  What led him
+to the study of the principles of the art I have no means, at present,
+of knowing, but it was probably owing to the facts recorded
+by the Alchemists, Mrs. Fulhame and others, already mentioned.
+But M. Daguerre, who is a celebrated dioramic painter,
+being desirous of employing some of the singularly changeable salts
+of silver to produce a peculiar class of effects in his paintings,
+was led to pursue an investigation which resulted in the discovery
+of the Daguerreotype, or Photogenic drawing on plates of copper
+coated with silver.
+
+To this gentleman--to his liberality--are we Americans
+indebted for the free use of his invention; and the large
+and increasing class of Daguerrean artists of this country
+should hold him in the most profound respect for it.
+He was not willing that it should be confined to a few
+individuals who might monopolise the benefits to be derived
+from its practice, and shut out all chance of improvement.
+Like a true, noble hearted French gentleman he desired that his
+invention should spread freely throughout the whole world.
+With these views he opened negociations with the French government
+which were concluded most favorably to both the inventors,
+and France has the "glory of endowing the whole world of
+science and art with one of the most surprising discoveries
+that honor the land."
+
+Notwithstanding this, it has been patented in England and the result
+is what might have been expected:  English pictures are far below
+the standard of excellence of those taken by American artists.
+I have seen some medium portraits, for which a guinea each had
+been paid, and taken too, by a celebrated artist, that our poorest
+Daguerreotypists would be ashamed to show to a second person,
+much less suffer to leave their rooms.
+
+CALOTYPE, the name given to one of the methods of Photogenic drawing
+on paper, discovered, and perfected by Mr. Fox Talbot of England,
+is precisely in the same predicament, not only in that country
+but in the United States, Mr. Talbot being patentee in both.
+He is a man of some wealth, I believe, but he demands so high
+a price for a single right in this country, that none can be found
+who have the temerity to purchase.
+
+The execution of his pictures is also inferior to those taken by
+the German artists, and I would remark en passant, that the Messrs.
+Mead exhibited at the last fair of the American Institute, (of 1848,)
+four Calotypes, which one of the firm brought from Germany last Spring,
+that for beauty, depth of tone and excellence of execution surpass
+the finest steel engraving.
+
+When Mr. Talbot's patent for the United States expires
+and our ingenious Yankee boys have the opportunity, I have
+not the slightest doubt of the Calotype, in their hands,
+entirely superceding the Daguerreotype.
+
+Let them, therefore, study the principles of the art as laid down in
+this little work, experiment, practice and perfect themselves in it,
+and when that time does arrive be prepared to produce that degree
+of excellence in Calotype they have already obtained in Daguerreotype.
+
+It is to Professor Samuel F. B. Morse, the distinguished inventor
+of the Magnetic Telegraph, of New York, that we are indebted
+for the application of Photography, to portrait taking.
+He was in Paris, for the purpose of presenting to the scientific world
+his Electro-Magnetic Telegraph, at the time, (1838,) M. Daguerre
+announced his splendid discovery, and its astounding results having
+an important bearing on the arts of design arrested his attention.
+In his letter to me on the subject, the Professor gives
+the following interesting facts.
+
+"The process was a secret, and negociations were then in progress,
+for the disclosure of it to the public between the French government
+and the distinguished discoverer.  M. Daguerre had shown his
+results to the king, and to a few only of the distinguished savans,
+and by the advice of M. Arago, had determined to wait the action
+of the French Chambers, before showing them to any other persons.
+I was exceedingly desirous of seeing them, but knew not
+how to approach M. Daguerre who was a stranger to me.
+On mentioning my desire to Robert Walsh, Esq., our worthy Consul,
+he said to me; 'state that you are an American, the inventor
+of the Telegraph, request to see them, and invite him in turn
+to see the Telegraph, and I know enough of the urbanity and
+liberal feelings of the French, to insure you an invitation.'
+I was successfull in my application, and with a young friend,
+since deceased, the promising son of Edward Delevan, Esq., I
+passed a most delightful hour with M. Daguerre, and his enchanting
+sun-pictures. My letter containing an account of this visit,
+and these pictures, was the first announcement in this country
+of this splendid discovery."
+
+"I may here add the singular sequel to this visit.  On the succeeding day
+M. Daguerre paid me a visit to see the Telegraph and witness its operations.
+He seemed much gratified and remained with me perhaps two hours;
+two melancholy hours to him, as they afterwards proved; or while
+he was with me, his buildings, including his diorama, his studio,
+his laboratory, with all the beautiful pictures I had seen the day before,
+were consumed by fire.  Fortunately for mankind, matter only was consumed,
+the soul and mind of the genius, and the process were still in existence."
+
+On his return home, Professor Morse waited with impatience
+for the revelation of M. Daguerre's process, and no sooner was it
+published than he procured a copy of the work containing it,
+and at once commenced taking Daguerreotype pictures.
+At first his object was solely to furnish his studio with
+studies from nature; but his experiments led him into a belief
+of the practicability of procuring portraits by the process,
+and he was undoubtedly the first whose attempts were attended
+with success.  Thinking, at that time, that it was necessary
+to place the sitters in a very strong light, they were all taken
+with their eyes closed.
+
+Others were experimenting at the same time, among them
+Mr. Wolcott and Prof. Draper, and Mr. Morse, with his
+acustomed modesty, thinks that it would be difficult to say
+to whom is due the credit of the first Daguerreotype portrait.
+At all events, so far as my knowledge serves me, Professor Morse
+deserves the laurel wreath, as from him originated the first
+of our inumerable class of Daguerreotypists; and many of his
+pupils have carried the manipulation to very great perfection.
+In connection with this matter I will give the concluding
+paragraph of a private letter from the Professor to me; He says.
+
+"If mine were the first, other experimenters soon made better results,
+and if there are any who dispute that I was first, I shall have no argument
+with them; for I was not so anxious to be the first to produce the result,
+as to produce it in any way.  I esteem it but the natural carrying out of
+the wonderful discovery, and that the credit was after all due to Daguerre.
+I lay no claim to any improvements."
+
+Since I commenced the compilation of this work, I have had the pleasure
+of making the acquaintance of an American gentleman--James M. Wattles Esq.--
+who as early as 1828--and it will be seen, by what I have already stated,
+that this is about the same date of M. Niepce's discovery--had his attention
+attracted to the subject of Photography, or as he termed it "Solar picture
+drawing," while taking landscape views by means of the camera-obscura.
+When we reflect upon all the circumstances connected with his experiments,
+the great disadvantages under which be labored, and his extreme youthfullness,
+we cannot but feel a national pride--yet wonder--that a mere yankee boy,
+surrounded by the deepest forests, hundred of miles from the populous
+portion of our country, without the necessary materials, or resources
+for procuring them, should by the force of his natural genius make
+a discovery, and put it in practical use, to accomplish which,
+the most learned philosophers of Europe, with every requisite apparatus,
+and a profound knowledge of chemistry--spent years of toil to accomplish.
+How much more latent talent may now be slumbering from the very same cause
+which kept Mr. Wattles from publicly revealing his discoveries, viz;
+want of encouragement--ridicule!
+
+At the time when the idea of taking pictures permanently on paper by
+means of the camera-obscura first occurred to him, he was but sixteen
+years of age, and under the instructions of Mr. Charles Le Seuer,
+(a talented artist from Paris) at the New Harmony school, Indiana.
+Drawing and painting being the natural bent of his mind, be was
+frequently employed by the professors to make landscape sketches
+in the manner mentioned.  The beauty of the image of these landscapes
+produced on the paper in the camera-obscura, caused him to pause
+and admire them with all the ardor of a young artist, and wish
+that by some means, he could fix them there in all their beauty.
+From wishing he brought himself to think that it was not only possible
+but actually capable of accomplishment and from thinking it could,
+he resolved it should be done.
+
+He was, however, wholly ignorant of even the first principles
+of chemistry, and natural philosophy, and all the knowledge he was
+enabled to obtain from his teachers was of very little service to him.
+To add to this, whenever he mentioned his hopes to his parents,
+they laughed at him, and bade him attend to his studies and let
+such moonshine thoughts alone--still he persevered, though secretly,
+and he met with the succes his peseverance deserved.
+
+For the truth of his statement, Mr. Wattles refers to some of our
+most respectable citizens residing at the west, and I am in hopes
+that I shall be enabled to receive in time for this publication,
+a confirmation from one or more of these gentlemen.  Be that as it may,
+I feel confident in the integrity of Mr. Wattles, and can give his
+statement to the world without a doubt of its truth.
+
+The following sketch of his experiments and their results will,
+undoubtedly, be interesting to every American reader and although
+some of the profound philosophers of Europe may smile at his
+method of proceeding, it will in some measure show the innate
+genius of American minds, and prove that we are not far behind
+our trans-atlantic brethren in the arts and sciences.
+
+Mr. Wattles says:  "In my first efforts to effect the desired object,
+they were feeble indeed, and owing to my limited knowledge of chemistry--
+wholly acquired by questioning my teachers--I met with repeated failures
+but following them up with a determined spirit, I at last produced,
+what I thought very fair samples--but to proceed to my experiments."
+
+"I first dipped a quarter sheet of thin white writing paper in a weak
+solution of caustic (as I then called it) and dried it in an empty box,
+to keep it in the dark; when dry, I placed it in the camera and watched
+it with great patience for nearly half an hour, without producing
+any visible result; evidently from the solution being to weak.
+I then soaked the same piece of paper in a solution of common potash,
+and then again in caustic water a little stronger than the first,
+and when dry placed it in the camera.  In about forty-five minutes I
+plainly percieved the effect, in the gradual darkening of various parts
+of the view, which was the old stone fort in the rear of the school garden,
+with the trees, fence, &c.  I then became convinced of the practicability
+of producing beautiful solar pictures in this way; but, alas! my
+picture vanished and with it, all--no not all--my hopes.  With renewed
+determination I began again by studying the nature of the preparation,
+and came to the conclusion, that if I could destroy the part not acted
+upon by the light without injuring that which was so acted upon,
+I could save my pictures.  I then made a strong solution of sal.
+soda I had in the house, and soaked my paper in it, and then washed
+it off in hot water, which perfectly fixed the view upon the paper.
+This paper was very poor with thick spots, more absorbent than other parts,
+and consequently made dark shades in the picture where they should
+not have been; but it was enough to convince me that I had succeeded,
+and that at some future time, when I had the means and a more
+extensive knowledge of chemistry, I could apply myself to it again.
+I have done so since, at various times, with perfect success;
+but in every instance laboring under adverse circumstances."
+
+I have very recently learned, that, under the present patent laws
+of the United States, every foreign patentee is required to put
+his invention, or discovery, into practical use within eighteen
+months after taking out his papers, or otherwise forfeit his patent.
+With regard to Mr. Talbot's Calotype patent, this time has nearly,
+if not quite expired, and my countrymen are now at perfect
+liberty to appropriate the art if they feel disposed.
+From the statement of Mr. Wattles, it will be perceived that this
+can be done without dishonor, as in the first instance Mr. Talbot
+had no positive right to his patent.
+
+Photography; or sun-painting is divided, according to the methods
+adopted for producing pictures, into
+
+ DAGUERREOTYPE, CHROMATYPE,
+ CALOTYPE,      ENERGIATYPE,
+ CHRYSOTYPE,    ANTHOTYPE and
+ CYANOTYPE,     AMPHITYPE.
+
+
+
+CHAP. II.
+
+THE THEORY ON LIGHT.--THE PHOTOGRAPHIC PRINCIPLE
+
+
+Some philosophers contend that to the existence of light alone we owe
+the beautiful effects produced by the Photogenic art, while others give
+sufficient reasons for doubting the correctness of the assumption.
+That the results are effected by a principle associated with light and
+not by the luminous principle itself, is the most probable conclusion.
+The importance of a knowledge of this fact becomes most essential
+in practice, as will presently be seen.  To this principle Mr. Hunt
+gives the name of ENERGIA.
+
+THE NATURE of Light is not wholly known, but it is generally believed
+to be matter, as in its motions it obeys the laws regulating matter.
+So closely is it connected with heat and electricity that there can be little
+doubt of their all being but different modifications of the same substance.
+I will not, however, enter into a statement of the various theories of
+Philosophers on this head, but content myself with that of Sir Isaac Newton;
+who supposed rays of light to consist of minute particles of matter,
+which are constantly emanating from luminous bodies and cause vision,
+as odoriferous particles, proceeding from certain bodies, cause smelling.
+
+The effects of light upon other bodies, and how light is effected
+by them, involve some of the most important principles, which if
+properly understood by Daguerreotypists would enable them to improve
+and correct many of the practical operations in their art.
+These effects we shall exhibit in this and the following chapters.
+Before we enter on this subject it will be necessary to become
+familiar with the
+
+DEFINITIONS of some of the terms used in the science of optics.
+
+Luminous bodies are of two kinds; those which shine by their own light,
+and those which shine by reflected light.
+
+Transparent bodies are such as permit rays of light to pass through them.
+
+Translucent bodies permit light to pass faintly, but without
+representing the figure of objects seen through them.
+
+Opaque bodies permit no light to pass through them, but reflect light.
+
+A ray is a line of light.
+
+A beam is a collection of parallel rays.
+
+A pencil is a collection of converging, or diverging rays.
+
+A medium is any space through which light passes.
+
+Incident rays are those which fall upon the surface of a body.
+
+Reflected rays are those which are thrown off from a body.
+
+Parallel rays are such as proceed equally distant from each other
+through their whole course.
+
+Converging rays are such as approach and tend to unite at any one point,
+as at b.  fig.  3.
+
+Diverging rays are those which continue to recede from each other,
+as at e.  Fig.  3.
+
+A Focus is that point at which converging rays meet.
+
+MOTION OF LIGHT--Rays of light are thrown off from luminous bodies
+in every direction, but always in straight lines, which cross each
+other at every point; but the particles of which each ray consists
+are so minute that the rays do not appear to be impeded by each other.
+A ray of light passing through an aperture into a dark room,
+proceeds in a straight line; a fact of which any one may be convinced
+by going into a darkened room and admiting light only through
+a small aperture.
+
+Light also moves with great velocity, but becomes fainter as it recedes
+from the source from which it eminates; in other words, diverging rays
+of light diminish in intensity as the square of the distance increases.
+For instance let a fig.  1, represent the luminous body from
+ [hipho_1.gif]
+which light proceeds, and suppose three square boards, b.  c.  d.
+severally one, four and sixteen square inches in size be placed;
+b one foot, c two feet, and d four feet from a, it will be
+perceived that the smallest board b will throw c into shadow;
+that is, obstruct all rays of light that would otherwise fall on c,
+and if b were removed c would in like manner hide the light
+from d--Now, if b recieve as much light as would fall on c whose
+surface is four times as large, the light must be four times
+as powerful and sixteen times as powerful as that which would
+fall on the second and third boards, because the same quantity
+of light is diffused over a space four and sixteen times greater.
+These same rays may be collected and their intensity again increased.
+
+Rays of light are reflected from one surface to another; Refracted,
+or bent, as they pass from the surface of one transparent
+medium to another; and Inflected, or turned from their course,
+by the attraction of opaque bodies.  From the first we
+derive the principles on which mirrors are constructed;
+to the second we are indebted for the power of the lenses,
+and the blessings of sight,--for the light acts upon the retina
+of the eye in the same manner as on the lens of a camera.
+The latter has no important bearing upon our subject.
+
+When a ray of light falls perpendicularly upon an opaque body,
+it is reflected bark in the same line in which it proceeds;
+in this case the reflected ray returns in the same path
+the incident ray traversed; but when a ray falls obliquely, it is
+reflected obliquely, that is, it is thrown off in opposite direction,
+and as far from the perpendicular as was the incident ray, as shown
+at Fig.  2; a representing the incident ray and b the reflected.
+The point, or angle c made by
+ [hipho_2.gif]
+the incident ray, at the surface of the reflector e f, with a line c d,
+perpendicular to that surface, is called the angle of incidence,
+while the angle formed by the reflected ray b and the perpendicular line
+d is called the angle of reflection, and these angles are always equal.
+
+It is by this reflection of light that objects are made visible;
+but unless light falls directly upon the eye they are invisible,
+and are not sensibly felt until after a certain series of
+operations upon the various coverings and humors of the eye.
+Smooth and polished surfaces reflect light most powerfully,
+and send to the eye the images of the objects from which the light
+proceeded before reflection.  Glass, which is transparent--
+transmitting light--would be of no use to us as a mirror,
+were it not first coated on one side with a metalic amalgam,
+which interrupts the rays in their passage from the glass into
+the air, and throws them either directly in the incident line,
+or in an oblique direction.  The reason why trees,
+rocks and animals are not all mirrors, reflecting other forms
+instead of their own, is, that their surfaces are uneven,
+and rays of light reflected from an uneven surface are diffused
+in all directions.
+
+Parallel rays falling obliquely upon a plane mirror are reflected parallel;
+converging rays, with the same degree of convergence; and diverging
+rays equally divergent.
+
+Stand before a mirror and your image is formed therein,
+and appears to be as far behind the glass as you are before it,
+making the angle of reflection equal to that of incidence,
+as before stated.  The incident ray and the reflected
+ray form, together, what is called the passage of reflection,
+and this will therefore make the actual distance of an image
+to appear as far again from the eye as it really is.
+Any object which reflects light is called a radiant.
+The point behind a reflecting surface, from which they appear
+to diverge, is called the virtual focus.
+
+Rays of light being reflected at the same angle at which they
+fall upon a mirror, two persons can stand in such a position
+that each can see the image of the other without seeing his own.
+Again; you may see your whole figure in a mirror half your length,
+but if you stand before one a few inches shorter the whole cannot
+be reflected, as the incident ray which passes from your feet into
+the mirror in the former case, will in the latter fall under it.
+Images are always reversed in mirrors.
+
+Convex mirrors reflect light from a rounded surface and disperse
+the rays in every direction, causing parallel rays to diverge,
+diverging rays to diverge more, and converging rays to converge less--
+They represent objects smaller than they really are--because the angle
+formed by the reflected ray is rendered more acute by a convex than
+by a plane surface, and it is the diminishing of the visual angle,
+by causing rays of light to be farther extended before they meet
+in a point, which produces the image of convex mirrors.  The greater
+the convexity of a mirror, the more will the images of the objects
+be diminished, and the nearer will they appear to the surface.
+These mirrors furnish science with many curious and pleasing facts.
+
+Concave mirrors are the reverse of convex; the latter being rounded outwards,
+the former hollowed inwards--they render rays of light more converging--
+collect rays instead of dispersing them, and magnify objects while the
+convex diminishes them.
+
+Rays of light may be collected in the focus of a mirror to such intensity as
+to melt metals.  The ordinary burning glass is an illustration of this fact;
+although the rays of light are refracted, or passed through the glass
+and concentrated into a focus beneath.
+
+When incident rays are parallel, the reflected rays converge to a focus,
+but when the incident rays proceed from a focus, or are divergent,
+they are reflected parallel.  It is only when an object is nearer to a
+concave mirror than its centre of concavity, that its image is magnified;
+for when the object is farther from the mirror, this centre will appear
+less than the object, and in an inverted position.
+
+The centre of concavity in a concave mirror, is an imaginary
+point placed in the centre of a circle formed by continuing
+the boundary of the concavity of the mirror from any one point
+of the edge to another parallel to and beneath it.
+
+REFRACTION OF LIGHT:--I now pass to the consideration of the passage
+of light through bodies.
+
+A ray of light failing perpendicularly through the air upon a surface
+of glass or water passes on in a straight line through the body;
+but if it, in passing from one medium to another of different density,
+fall obliquely, it is bent from its direct course and recedes from it,
+either towards the right or left, and this bending is called refraction;
+(see fig.  3, b.) If a ray of light passes from a rarer into a denser medium
+it is refracted towards a perpendicular in that medium; but if it passes from
+a denser into rarer it is bent further from a perpendicular in that medium.
+Owing to this bending of the rays of light the angles of refraction
+and incidence are never equal.
+
+Transparent bodies differ in their power of bending light--
+as a general rule, the refractive power is proportioned to
+the density--but the chemical constitution of bodies as well
+as their density, is found to effect their refracting power.
+Inflamable bodies possess this power to a great degree.
+
+The sines of the angle of incidence and refraction (that is,
+the perpendicular drawn from the extremity of an arc to the diameter
+of a circle,) are always in the same ratio; viz:  from air into water,
+the sine of the angle of refraction is nearly as four to three,
+whatever be the position of the ray with respect to the refracting surface.
+From air into sulphur, the sine of the angle of refraction is as two to one--
+therefore the rays of light cannot be refracted whenever the sine
+of the angle of refraction becomes equal to the radius* of a circle,
+and light falling very obliquely upon a transparent medium ceases
+to be refracted; this is termed total reflection.
+
+* The RADIUS of a circle is a straight line passing from the centre
+to the circumference.
+
+Since the brightness of a reflected image depends upon the quantity of light,
+it is quite evident that those images which arise from total reflection
+are by far the most vivid, as in ordinary cases of reflection a portion
+of light is absorbed.
+
+I should be pleased to enter more fully into this branch
+of the science of optics, but the bounds to which I am
+necessarily limited in a work of this kind will not admit of it.
+In the next chapter, however, I shall give a synopsis of Mr. Hunt's
+treatise on the "Influence of the Solar Rays on Compound Bodies,
+with especial reference to their Photographic application"--
+A work which should be in the hands of every Daguerreotypist,
+and which I hope soon to see republished in this country.
+I will conclude this chapter with a brief statement of the
+principles upon which the Photographic art is founded.
+
+SOLAR and Steller light contains three kinds of rays, viz:
+
+1.  Colorific, or rays of color.
+
+2.  Calorific, or rays of heat.
+
+3.  Chemical rays, or those which produce chemical effects.
+
+On the first and third the Photographic principle depends.
+In explaining this principle the accompanying wood cuts,
+(figs. 3 and 4) will render it more intelligible.
+
+If a pencil of the sun's rays fall upon a prism, it is bent in passing
+through the transparent medium; and some rays being more refracted
+than others, we procure an elongated image of the luminous beam,
+exhibiting three distinct colors, red, yellow and blue, which are
+to be regarded as primitives--and from their interblending, seven,
+as recorded by Newton, and shown in the accompanying wood cut.
+These rays being absorbed, or reflected differently by various bodies,
+give to nature the charm of color.  Thus to the eve is given the pleasure
+we derive in looking upon the green fields and forests, the enumerable
+varieties of flowers, the glowing ruby, jasper, topaz, amethist, and emerald,
+the brilliant diamond, and all the rich and varied hues of nature,
+both animate and inanimate.
+ [hipho_3.gif]
+
+Now, if we allow this prismatic spectrum (b. fig.  3.) to fall upon
+any surface (as at c.) prepared with a sensitive photographic compound,
+we shall find that the chemical effect produced bears no relation
+to the intensity of the light of any particular colored ray,
+but that, on the contrary, it is dispersed over the largest portion
+of the spectrum, being most energetic in the least luminous rays,
+and ever active over an extensive space, where no traces of light
+can be detected.  Fig.  4, will give the student a better idea
+of this principle.  It is a copy of the kind of impression
+which the spectrum, spoken of, would make on a piece of paper
+covered with a very sensitive photographic preparation.
+The white space a.  corresponds with the most luminous, or yellow ray,
+(5, fig.  3) over limits of which all chemical change is prevented.
+A similar action is also produced by the lower end of the red ray c;
+but in the upper portion, however we find a decided change
+(as at d). The most active chemical change, you will percieve,
+is produced by the rays above the yellow a; viz.  4, 3, 2 and 1
+(as at b) the green (4) being the least active, and the blue
+(3) and violet (1) rays the most so, the action still continuing
+far beyond the point b which is the end of the luminous image.
+ [hipho_4.gif]
+
+Suppose we wish to copy by the Daguerreotype, or Calotype process,
+any objects highly colored--blue, red and yellow, for instance predominating--
+the last of course reflects the most light, the blue the least;
+but the rays from the blue surface will make the most intense impression,
+whilst the red radiations are working very slowly, and the yellow
+remains entirely inactive.  This accounts for the difficulty experienced
+in copying bright green foliage, or warmly colored portraits; a large
+portion of the yellow and red rays entering into the composition of both--
+and the imperfections of a Daguerreotype portrait of a person with a
+freckled face depends upon the same cause.
+
+A yellow, hazy atmosphere, even when the light is very bright,
+will effectually prevent any good photographic result--
+and in the height of summer, with the most sensative process,
+it not unfrequently happens that the most anoying failures
+arise from this agency of a yellow medium.  A building
+painted of a yellow color, which may reflect the sun's rays
+directly into the operator's room will have the same effect.
+Daguerreotypists, being ignorant of these facts, are very apt
+to charge their want of success to the plates, or chemicals,
+or any thing but the real cause; and it would be well to bear
+these facts constantly in mind and as far as possible avoid them.
+This, may be accomplished, in a measure, by a choice of location
+or by having the glass of your windows tinged with blue; or a screen
+of thin blue paper may be interposed between the light and sitter.
+In selecting subjects, all striking contrasts in color should
+be avoided, and sitters for portraits should be cautioned
+not to wear anything that may produce the effect spoken of--
+dark dresses always being the best.
+
+The action of light both combines and decomposes bodies.
+For instance, chlorine and hydrogen will remain in a glass vessel without
+alteration if kept in the dark; but if exposed to the rays of the sun,
+they immediately enter into combination, and produce hydrochloric acid.
+On the other hand, if colorless nitric acid be exposed to the sun,
+it becomes yellow, then changes to red, and oxygen is liberated
+by the partial decomposition effected by the solar rays.
+
+Of the organic substances none are more readily acted upon by light
+than the various combinations of silver.
+
+Of these some are more, and others less sensitive.  If Chloride of silver,
+which is a white precipitate formed by adding chloride of sodium (common salt)
+to a solution of nitrate of silver, be exposed to diffused light,
+it speedily assumes a violet tint, and ultimately becomes nearly black.
+With iodide of silver, bromide of silver, ammonio-nitrate of silver,
+and other salts of this metal, the result will be much the same.
+
+Some bodies, which under the influence of light, undergo chemical changes,
+have the power of restoring themselves to their original condition in
+the dark.  This is more remarkably displayed in the iodide of platinum,
+which readily recieves a photogenic image by darkening over the
+exposed surfaces, but speedily loses it by bleaching in the dark.
+The ioduret of Daguerre's plate, and some other iodides, exhibit the
+same peculiarity--This leads us to the striking fact, that bodies
+which have undergone a change of estate under the influence of day-light
+have some latent power by which they can renovate themselves.
+Possibly the hours of night are as necessary to inanimate nature as they
+are to the animate.  During the day, an excitement which we do not heed,
+unless in a state of disease, is maintained by the influence of light
+and the hours of repose, during which the equilibrium is restored,
+are absolutely necessary to the continuance of health.
+
+Instead of a few chemical compounds of gold and silver,
+which at first were alone supposed to be photographic,
+we are now aware that copper, platinum, lead, nikel, and indeed,
+probably all the elements, are equally liably to change under
+the sun's influence.  This fact may be of benefit to engravers,
+for if steel can be made to take photographic impressions,
+the more laborious process of etching may be dispensed with.
+In fact, in the latter part of this work, a process is described
+for etching and taking printed impressions from Daguerreotype plates.
+As yet this process has produced no decided beneficial results--
+but future experiments may accomplish some practical discovery
+of intrinsic value to the art of engraving.
+
+A very simple experiment will prove how essential light is to the coloring
+of the various species comprising the vegetable and animal kingdoms.
+If we transplant any shrub from the light of day into a dark cellar,
+we will soon see it lose its bright green color, and become perfectly white.
+
+Another effect of light is that it appears to impart to bodies some power
+by which they more readily enter into chemical combination with others.
+We have already said that chlorine and hydrogen, if kept in the dark, will
+remain unaltered; but if the chlorine alone be previously exposed to the sun,
+the chlorine thus solarised will unite with the hydrogen in the dark.
+Sulphate of iron will throw down gold or silver from their solutions slowly
+in the dark; but if either solution be first exposed to sunshine, and the
+mixture be then made, in the dark, the precipitation takes place instantly.
+Here is again, evidence of either an absorption of some material agent from
+the sunbeam, or an alteration in the chemical constitution of the body.
+It was from understanding these principles and applying them that philosophers
+were enabled to produce the Calotype, Daguerreotype, &c. For the effects
+and action of light on the camera, see Chapter V.
+
+Some advances have been made towards producing Photographic
+impressions in color--the impossibility of which some of our
+best and oldest artists have most pertinaciously maintained.
+The colored image of the spectrum has been most faithfully copied,
+ray for ray, on paper spread with the juice of the Cochorus Japonica,
+(a species of plant) and the fluoride of silver;
+and on silver plate covered with a thin film of chloride.
+The day may be still remote when this much to be desired
+decideratum shall be accomplished in portrait taking;
+but I am led to hope that future experiments may master
+the secret which now causes it to be looked upon, by many,
+as an impossibility.
+
+That great advantages have resulted, and that greater still will
+result from the discovery of the Photographic art, few will deny.
+The faithful manner in which it copies nature, even to the most
+minute details, renders it of much value to the painter; but a few minutes
+sufficing to take a view that formerly would have occupied several days.
+Its superiority in portraits, over miniature or oil painting has been
+tacitly acknowledged by the thousands who employ it to secure their own,
+or a friends likeness, and by the steady increase in the number of
+artists who are weekly, aye daily springing up in every town and village
+in the land.
+
+
+
+CHAP. III.
+
+SYNOPSIS OF MR. HUNT'S TREATISE ON "THE INFLUENCE OF THE
+SOLAR RAYS ON COMPOUND BODIES, WITH ESPECIAL REFERENCE TO
+THEIR PHOTOGRAPHIC APPLICATION."
+
+
+OXIDE OF SILVER exposed for a few hours to good sunshine,
+passes into a more decided olive color, than characterises it
+when first prepared by precipitation from nitrate of silver.
+Longer exposure renders this color very much lighter,
+and the covered parts, are found much darker, than those on which
+the light has acted directly.  In some instances where the oxide
+of silver has been spread on the paper a decided whitening
+process in some parts, after a few days exposure, is noticed.
+Oxide of silver disolved in ammonia is a valuable photographic fluid;
+one application of a strong solution forming an exceedingly
+sensitive surface.  The pictures on this paper are easily fixed
+by salt or weak ammonia.
+
+NITRATE OF SILVER.--This salt in a state of purity, does not appear
+to be sensibly affected by light, but the presence of the smallest
+portion of organic matter renders it exceedingly liable to change
+under luminous influence.
+
+If a piece of nitrated paper is placed upon hot iron,
+or held near the fire, it will be found that at a heat just
+below that at which the paper chars, the salt is decomposed.
+Where the heat is greatest, the silver is revived,
+and immediately around it, the paper becomes a deep blue;
+beyond this a pretty decided green color results,
+and beyond the green, a yellow or yellow brown stain is made.
+This exhibits a remarkable analogy between heat and light,--
+before spoken of in chap. II--and is of some practical
+importance in the preparation of the paper.
+
+PRISMATIC ANALYSIS.--The method of accomplishing the prismatic decomposition
+of rays of light by the spectrum has already been described on pages 22
+and 23.  The color of the impressed spectrum, on paper washed with nitrate
+of silver, is at first, a pale brown, which passes slowly into a deeper shade;
+that portion corresponding with the blue rays becoming a blue brown;
+and under the violet of a peculiar pinkey shade, a very decided green tint,
+on the point which corresponds with the least refrangible blue rays,
+may be observed, its limits of action being near the centre of the yellow ray,
+and its maximum about the centre of the blue, although the action up to
+the edge of the violet ray is continued with very little diminution of effect;
+beyond this point the action is very feeble.
+
+When the spectrum is made to act on paper which has been
+previously darkened, by exposure to sunshine under cupro-sulphate
+of ammonia, the phenomena are materially different.
+The photographic spectrum is lengthened out on the red or negative
+side by a faint but very visible red portion, which extends
+fully up to the end of the red rays, as seen by the naked eye.
+The tint of the general spectrum, too, instead of brown is
+dark grey, passing, however, at its most refracted or positive
+end into a ruddy brown.
+
+In its Photographic application, the nitrate of silver is the most valuable
+of the salts of that metal, as from it most of the other argentine compounds
+can be prepared, although it is not of itself sufficiently sensible to light
+to render it of much use.
+
+CHLORIDE OF SILVER.--This salt of silver, whether in its
+precipitated state, or when fused, changes its color to a fine
+bluish grey by a very short exposure to the sun's rays.
+If combined with a small quantity of nitrate, the change is
+more rapid, it attains a deep brown, then slowly passes into
+a fine olive, and eventually, after a few weeks, the metalic
+silver is seen to be revived on the surface of the salt.
+Great differences of color are produced on chlorides of silver
+precipitated by different muriates.  Nearly every variety
+in combination with the nitrate, becomes at last of the same
+olive color, the following examples, therefore, have reference
+to a few minutes exposure, only, to good sunshine; it must
+also be recollected that the chloride of silver in these cases
+is contaminated with the precipitant.
+
+Muriate of ammonia precipitates chloride to darken to a fine
+chocolate brown, whilst muriate of lime produces a brick-red color.
+Muriates of potash and soda afford a precipitate, which darkens
+speedly to a pure dark brown, and muriatic acid, or aqueous chlorine,
+do not appear to increase the darkening power beyond the lilac
+to which the pure chloride of silver changes by exposure.
+This difference of color appears to be owing to the admixture
+of the earth or alkali used with the silver salt.
+
+The prismatic impression on paper spread with the chloride of
+silver is often very beautifully tinted, the intensity of color
+varying with the kind of muriate used.  Spread paper with muriate
+of ammonia or baryta and you obtain a range of colors nearly
+corresponding with the natural hues of the prismatic spectrum.
+Under favorable circumstances the mean red ray, leaves a red impression,
+which passes into a green over the space occupied by the yellow rays.
+Above this a leaden hue is observed, and about the mean blue ray,
+where the action is greatest, it rapidly passes through brown
+into black, and through the most refrangible rays it gradually
+declines into a bluish brown, which tint is continued throughout
+the invisible rays.  At the least refrangible end of the spectrum,
+the very remarkable phenomenon has been observed, of the extreme red
+rays exerting a protecting influence, and preserving the paper from
+that change, which it would otherwise undergo, under the influence
+of the dispersed light which always surrounds the spectrum.
+Not only the extreme red ray exerts this very peculiar property,
+but the ordinary red ray through nearly its whole length.
+
+In photographic drawing this salt is of the utmost importance.
+Mr. Talbot's application of it will be given hereafter in another
+portion of this work.
+
+IODIDE OF SILVER--Perfectly pure, undergoes very little change
+under the influence of light or heat; but if a very slight
+excess of the nitrate of silver be added it becomes infinitely
+more senitive than the chloride
+
+The spectrum impressed upon paper prepared with a weak solution of
+the hydriodate of potash presents some very remarkable peculiarities.
+The maximum of intensity is found at the edge of the most refrangible
+violet rays, or a little beyond it, varying slightly according to the kind
+of paper used, and the quantity of free nitrate of silver present.
+The action commences at a point nearly coincident with the mean red
+of the luminous spectrum, where it gives a dull ash or lead color,
+while the most refrangible rays impress a ruddy snuff-brown,
+the change of tint coming on rather suddenly about the end of
+the blue or beginning of the violet rays of the luminous spectrum.
+Beyond the extreme violet rays, the action rapidly diminishes,
+but the darkening produced by these invisible rays, extends a
+very small space beyond the point at which they cease to act on
+the chloride of silver.
+
+In its photographic application, it is, alone, of very little use;
+but in combination with other reagents it becomes exquisitely sensitive.
+With gallic acid and the ferrocyanate of potash it forms two of the most
+sensitive photographic solutions with which we are acquainted.
+These are used in the calotype process.
+
+IODURET OF SILVER.--If upon a plate of polished silver we place
+a small piece of iodine, and apply the heat of a lamp beneath
+the plate for a moment, a system of rings is speedily formed.
+The first ring, which spreading constantly forms the exterior
+of the circle, is of a bright yellow color; within this,
+there arises, sucessively, rings of green, red and blue colors,
+and then again a fine yellow circle, centred by a greyish spot
+on the place occupied by the iodine.  On exposing these to the light,
+the outer yellow circle almost instantly changes color,
+the others slowly, in the order of their position, the interior
+yellow circle resisting for a long time the solar influence.
+These rings must be regarded as films of the ioduret of silver,
+varying, not only in thickness, but in the more or less perfect
+states of combination in which the iodine and metal are.
+The exterior circle is an ioduret in a very loose state
+of chemical agregation; the attractive forces increase as we
+proceed towards the centre, where a well formed ioduret,
+or probably a true iodide of silver, is formed, which is acted
+upon by sunlight with difficulty.  The exterior and most
+sensitive film constitutes the surface of Daguerreotype plates.
+The changes which these colored rings undergo are remarkable;
+by a few minutes exposure to sunlight, an inversion of nearly
+all the colors takes place, the two first rings becoming a deep
+olive green; and a deep blue inclining to black.
+
+The nature of the change which the ioduret of silver undergoes
+on Daguerreotype plates, through the action of light,
+Mr. Hunt considers to be a decided case of decomposition,
+and cites several circumstances in proof of his position.
+These with other facts given by Mr. Hunt in his great work
+on the Photographic art, but to volumnious to include in a
+volume of the size to which I am obliged to cofine myself,
+should be thoroughly studied by all Daguerreotypists.
+
+PRISMATIC ANALYSIS.--The most refrangible portion of the spectrum,
+(on a Daguerreotype plate) appears, after the plate has been
+exposed to the vapor of mercury, to have impressed its colors;
+the light and delicate film of mercury, which covers that portion,
+assuming a fine blue tint about the central parts, which are
+gradually shaded off into a pale grey; and this is again surrounded
+by a very delicate rose hue, which is lost in a band of pure white.
+Beyond this a protecting influence is powerfully exerted;
+and notwithstanding the action of the dispersed light,
+which is very evident over the plate, a line is left,
+perfectly free from mercurial vapor, and which, consequently,
+when viewed by a side light, appears quite dark.
+The green rays are represented by a line of a corresponding tint,
+considerably less in size than the luminous green rays.
+The yellow rays appear to be without action, or to act negatively,
+the space upon which they fall being protected from the
+mercurial vapor; and it consequently is seen as a dark band.
+A white line of vapor marks the place of the orange rays.
+The red rays effect the sensitive surface in a peculiar manner;
+and we have the mercurial vapor, assuming a molecular arrangement
+which gives to it a fine rose hue; this tint is surrounded by a
+line of white vapor, shaded at the lowest extremity with a very
+soft green.  Over the space occupied by the extreme red rays,
+a protecting influence is again exerted; the space is retained
+free from mercurial vapor and the band is found to surround
+the whole of the least refrangible rays, and to unite itself
+with the band which surrounds the rays of greatest refrangibility.
+This band is not equally well defined throughout its whole extent.
+It is most evident from the extreme red to the green;
+it fades in passing through the blue, and increases again,
+as it leaves the indigo, until beyond the invisible chemical
+rays it is nearly as strong as it is at the calorific end
+of the spectrum.
+
+Images on Daguerreotype plates which have been completely obliterated
+by rubbing may be restored, by placing it in a tolerably strong solution
+of iodine in water.
+
+BROMIDE OF SILVER.--This salt, like the iodide, does not appear to be readily
+changed by the action of light; but when combined with the nitrate of silver
+it forms a very sensitive photographic preparation.
+
+Paper prepared with this salt, blackens over its whole extent with nearly
+equal intensity, when submitted to the prismatic spectrum.  The most
+characteristic peculiarity of the spectrum is its extravagant length.
+Instead of terminating at the mean yellow ray, the darkened portion
+extends down to the very extremity of the visible red rays.
+In tint it is pretty uniformly of a grey-black over its whole extent,
+except that a slight fringe of redness is perceptible at the least
+refracted end.  Beyond the red ray, an extended space is protected
+from the agency of the dispersed light, and its whiteness maintained;
+thus confirming the evidence of some chemical power in action,
+over a space beyond the luminous spectrum, which corresponds with
+the rays of the least refrangibility.
+
+This salt is extensively used in photographic drawing.
+
+PREPARATIONS OF GOLD.--Chloride of Gold, freed from an excess
+of acid is slowly changed under the action of light;
+a regularly increasing darkness taking place until it
+becomes purple, the first action of the light being to whiten
+the paper, which, if removed from the light at this stage,
+will gradually darken and eventually develope the picture.
+This process may be quickened by placing the paper in cold water.
+
+Chloride of gold with nitrate of silver gives a precipitate of a yellow
+brown color.  Paper impregnated with the acetate of lead, when washed
+with perfectly neutral chloride of gold, acquires a brownish-yellow hue.
+The first impression of light seems rather to whiten than darken the paper,
+by discharging the original color, and substituting for it a pale
+greyish tint, which by slow degrees increases to a dark slate color;
+but if arrested, while yet, not more than a moderate ash grey, and held
+in a current of steam, the color of the parts acted upon by light--
+and of that only--darkens immediately to a deep purple.
+
+Here I must leave the subject of the action of light upon metalic compounds--
+referring to Mr. Hunts work for any further information the student may
+desire on the other metals--as I find myself going beyond my limits.
+I cannot, however, entirely dismiss the subject without giving a few examples
+of the action of light on the juices of plants, some of which produce
+very good photographic effect.
+
+CORCHORUS JAPONICA--The juice of the flowers of this plant
+impart a fine yellow color to paper, and, so far as ascertained,
+is the most sensitive of any vegetable preparation;
+but owing to its continuing to change color even in the dark,
+photographic images taken on paper prepared with it soon fade out.
+
+WALL FLOWER.--This flower yields a juice, when expressed
+with alcohol, from which subsides, on standing, a bright
+yellow finely divided faecula, leaving a greenish-yellow
+transparent liquid, only slightly colored supernatant.
+The faecula spreads well on paper, and is very sensitive to light,
+but appears at the same time to undergo a sort of chromatic analysis,
+and to comport itself as if composed of two very distinct
+coloring principles, very differently affected.  The one on
+which the intensity and sub-orange tint of the color depends,
+is speedily destroyed, but the paper is not thereby fully whitened.
+A paler yellow remains as a residual tint, and this on
+continued exposure to the light, slowly darkens to brown.
+Exposed to the spectrum, the paper is first reduced nearly
+to whiteness in the region of the blue and violet rays.
+More slowly, an insulated solar image is whitened in the less
+refrangible portion of the red.  Continue the exposure,
+and a brown impression begins to be percieved in the midst
+of the white streak, which darkens slowly over the region
+between the lower blue and extreme violet rays.
+
+THE RED POPPY yields a very beautiful red color, which is entirely
+destroyed by light.  When perfectly dried on paper the color becomes blue.
+This blue color is speedily discharged by exposure to the sun's rays,
+and papers prepared with it afford very interesting photographs.--
+Future experiments will undoubtedly more fully develope the photogenic
+properties of flowers, and practically apply them.
+
+Certain precautions are necessary in extracting the coloring matter
+of flowers.  The petals of fresh flowers, carefully selected,
+are crushed to a pulp in a mortar, either alone or with the addition
+of a litte alcohol, and the juice expressed by squeezing
+the pulp in a clean linen or cotton cloth.  It is then to be
+spread upon paper with a flat brush, and dried in the air.
+If alcohol be not added, it must be applied immediately,
+as the air changes or destroys the color instantly.
+
+Most flowers give out their coloring matter to alcohol or water--
+but the former is found to weaken, and in some cases to discharge
+altogether these colors; but they are in most cases restored in drying.
+Paper tinged with vegetable colors must be kept perfectly dry
+and in darkness.
+
+To secure an eveness of tint on paper it should be first moistened on
+the back by sponging, and blotting off with bibulous paper.  It should then
+be pinned on a board, the moist side downwards, so that two of its edges--
+the right and lower ones--project a little over those of the board.
+Incline the board twenty or thirty degrees to the horizon,
+and apply the tincture with a brush in strokes from right to left,
+taking care not to go over the edges which rests on the board,
+but to pass clearly over those that project; and also observing
+to carry the tint from below upwards by quick sweeping strokes,
+leaving no dry spaces between them.  Cross these with other strokes
+from above downwards, leaving no floating liquid on the paper.
+Dry as quickly as possible, avoiding, however, such heat as may
+injure the tint
+
+
+
+CHAP. IV.
+
+A FEW HINTS AND SUGGESTIONS TO DAGUERREOTYPISTS.
+
+
+There are very few who may not be capable of practising the Photographic art,
+either on paper, or metalic plates--but, like all other professions,
+some are more clever in its various processes than others.
+
+Impatience is a great drawback to perfect success,
+and combined with laziness is a decided enemy.  Besides this,
+no one can excel in Photography who does not possess a natural
+taste for the fine arts, who is not quick in discerning grace
+and beauty--is regardless of the principles of perspective,
+foreshorting and other rules of drawing, and who sets about
+it merely for the sake of gain--without the least ambition
+to rise to the first rank, both in its practice and theory.
+There is no profession or trade in which a slovenly manner
+will not show itself, and none where its effects will be more
+apparent than this.
+
+In order to be great in any pursuit, we must be ourselves,
+and keep all things, in order.  In your show and reception rooms,
+let neatness prevail; have your specimens so placed--
+leaning slightly forward--as to obtain the strongest light
+upon them, and at the same time prevent that glassiness
+of apearance which detracts so materially from the effect they
+are intended to produce.  If possible, let the light be of a
+north-western aspect, mellowed by curtains of a semitransparent hue.
+Your show-cases, at the door, should be kept well cleaned.
+I have often been disgusted while attempting to examine portraits
+in the cases of our artists, at the greasy coating and marks
+of dirty fingers upon the glass and frame enclosing them.
+Believe it, many a good customer is lost for no other reason.
+
+In your operating room, dust should be carefully excluded.
+It should be furnished with nothing apt to collect and retain dust;
+a carpet is therefore not only a useless article, but very improper.
+A bare floor is to be prefered; but if you must cover it use matting.
+There is no place about your establishment where greater
+care should be taken to have order and cleanliness; for it
+will prevent many failures often attributed to other causes.
+"A place for every thing, and every thing in its place," should be
+an absolute maxim with all artists.  Do not oblige the ladies,
+on going away from your rooms, to say--"That H. is a slovenly man;
+see how my dress is ruined by sitting down in a chair that looked
+as if it had just come out of a porter house kitchen and had not
+been cleaned for six months."
+
+In choosing your operating room, obtain one with a north-western aspect,
+if possible; and either with, or capable of having attached,
+a large skylight.  Good pictures may be taken without the sky-light,
+but not the most pleasing or effective.
+
+A very important point to be observed, is to keep the camera perfectly
+free from dust.  The operator should be careful to see that the slightest
+particle be removed, for the act of inserting the plate-holder will set
+it in motion, if left, and cause those little black spots on the plate,
+by which an otherwise good picture is spoiled.  The camera should be
+so placed as to prevent the sun shining into the lenses.
+
+In taking portraits, the conformation of the sitter should be minutely
+studied to enable you to place her or him in a position the most
+graceful and easy to be obtained.  The eyes should be fixed on some
+object a little above the camera, and to one side--but never into,
+or on the instrument, as some direct; the latter generally gives
+a fixed, silly, staring, scowling or painful expression to the face.
+Care should also be taken, that the hands and feet, in whatever position,
+are not too forward or back ward from the face when that is in good focus
+
+If any large surface of white is present, such as the shirt front,
+or lady's handkerchief, a piece of dark cloth (a temporary bosom
+of nankeen is best,) may be put over it, but quickly withdrawn
+when the process is about two thirds finished.
+
+A very pleasing effect is given to portraits, by introducing,
+behind the sitter, an engraving or other picture--if a painting,
+avoid those in which warm and glowing tints predominate.
+The subject of these pictures may be applicable to the taste
+or occupation of the person whose portrait you are taking.
+This adds much to the interest of the picture, which is otherwise
+frequently dull, cold and inanimate.
+
+Mr. J. H. Whitehurst of Richmond, Va., has introduced a revolving
+background, which is set in motion during the operation, and produces
+a distinctness and boldness in the image not otherwise to be obtained.
+The effect upon the background of the plate is equally pleasing;
+it having the appearance of a beautifully clouded sky.
+
+In practising Photographic drawing on paper, the student
+must bear in mind that it is positively essential, to secure
+success in the various processes, to use the utmost precaution
+in spreading the solutions, and washes from the combination
+of which the sensitive surfaces result.  The same brush should
+always be used for the same solution, and never used for any other,
+and always washed in clean water after having been employed.
+Any metalic mounting on the brushes should be avoided,
+as the metal precipitates the silver from its solution.
+The brushes should be made of camels or badger's hair and sufficiently
+broad and large to cover the paper in two or three sweeps;
+for if small ones be employed, many strokes must be given,
+which leave corresponding streaks that will become visible
+when submitted to light, and spoil the picture.
+
+These few preliminary hints and suggestions, will, I trust,
+be of some service to all who adopt this pleasing art as a profession;
+and will, with a due attention to the directions given in the practical
+working of the Daguerreotype, Calotype, etc., ensure a corresponding
+measure of success.
+
+
+
+CHAP. V.
+
+DAGUERREOTYPE APPARATUS.
+
+
+The entire Daguerreotype process is comprised in seven
+distinct operations; viz:
+
+1.--Cleaning and polishing the plate.
+
+2.--Applying the sensitive coating.
+
+3--Submitting the plate to the action of light in the camera.
+
+4.--Bringing out the picture; in other words rendering it visible.
+
+5.--Fixing the image, or making it perminent--so that the light
+may no longer act upon it.
+
+6.--Gilding:  or covering the picture with a thin film of gold--
+which not only protects it, but greatly improves its distinctness
+and tone of color.
+
+7.--Coloring the picture.
+
+For these various operations the following articles--
+which make up the entire apparatus of a Daguerrean artist--
+must be procured
+
+1.--THE CAMERA.--(Fig. 5.). The Camera Obscura of the Italian
+philosophers, although highly appreciated, on account of the magical
+character of the pictures it produced, remained little other
+than a scientific toy, until the discovery of M. Daguerre.
+The value of this instrument is now great, and the interest of
+the process which it so essentially aids, universally admitted.
+A full description of it will therefore be interesting.
+ [hipho_5.gif]
+
+The camera is a dark box (a), having a tube with lenses (b) placed
+in one end of it, through which the radiations from external
+objects pass, and form a diminished picture upon the ground glass
+(g) placed at the proper distance in the box to receive it;
+the cap c covering the lenses at b until the plate is ready
+to receive the image of the object to be copied.
+
+Thus a (fig. 6.) representing the lens, and b the object desired to
+be represented, the rays (c, c) proceeding from it fall upon the lens,
+and are transmitted to a point, which varies with the curvature of
+the glass, where an inverted image (d) of b is very accurately formed.
+At this point, termed the focus, the sensitive photographic material
+is placed for the purpose of obtaining the required picture.
+
+The great disideratum in a photographic camera is perfect lenses.
+They should be achromatic, and the utmost
+ [hipho_6.gif]
+transparency should be obtained; and under the closest
+inspection of the glass not the slightest wavy appearance,
+or dark spot should be detected; and a curvature which as much
+as possible prevents spherical aberration should be secured.
+The effect produced by this last defect is a convergence
+of perpendiculars, as for instance; two towers of any building,
+would be represented as leaning towards each other; and in a
+portrait the features would seem contracted, distorted and
+mingled together, so as to throw the picture out of drawing
+and make it look more like a caricature than a likeness.
+If the lens be not achromatic, a chromatic aberration takes place,
+which produces an indistinct, hazy appearance around the edges
+of the picture, arising from the blending of the rays.
+
+The diameter and focal length of a lens must depend in a great measure
+on the distance of the object, and also on the superficies of the plate
+or paper to be covered.  For portraits one of 1 1/2 inches diameter,
+and from 4 1/2 to 5 1/2 inches focus may be used; but for distant views,
+one from 2 inches to 3 inches diameter, and from 8 to 12 inches focal
+length will answer much better.  For single lenses, the aperture
+in front should be placed at a distance from it, corresponding to
+the diameter, and of a size not more than one third of the same.
+A variety of movable diaphrams or caps, to cover the aperture in front,
+are very useful, as the intensity of the light may be modified by them
+and more or less distinctness and clearness of delineation obtained.
+These caps alway come with Voitlander instruments and should be secured
+by the purchaser.
+
+Though the single acromatic lens answers very well for copying engravings;
+taking views from nature or art, for portraits the double should always
+be used.  The extensive manufacture of the most approved cameras,
+both in Europe and in this country, obviates all necessity for any one
+attempting to construct one for their own use.  Lenses are now made so
+perfect by some artisans that, what is called the "quick working camera"
+will take a picture in one second, while the ordinary cameras require
+from eight to sixty.
+
+The camera in most general use is that manufactured by Voitlander and Son
+of Germany.  Their small size consists of two seperate acromatic lenses;
+the first, or external one, has a free aperture of 1 1/2 inches; the second,
+or internal, 1 5/8 inches; and both have the same focus, viz:  5 3/4 inches.
+The larger size differs from the smaller.  The inner lens is an achromatic
+3 1/4 inches diameter, its focal length being 30 inches.  The outer lens
+is a meniscus--that is bounded by a concave and convex spherical surface
+which meet--having a focal length of 18 inches.  For every distant view,
+the aperture in front is contracted by a diaphram to 1/8 of an inch.
+By this means the light is reflected with considerable intensity and
+the clearness and correctness of the pictures are truly surprising.
+
+THE AMERICA instruments are constructed on the same principle
+and many of them are equally perfect.  Mr. Edward Anthony
+of 205 Broadway, New York city, has constructed, and sold
+cameras fully equal to the German and for which Voitlander
+instruments have been refused in exchange by the purchaser.
+
+The ordinary camera box (see fig. 5, a) varies in size
+to suit the tube, and is termed medium, half, or whole.
+Within the box is a slide to assist in regulating the focus,
+and in enlarging or diminishing the picture.  In one end of this
+slide is a springed groove into which the ground-glass spectrum
+(g fig. 5) is slid, for the purpose of more conveniently arranging
+the focus.  After the plate is prepared it is placed in the holder--
+partly seen at e, fig. 5, and covered with the dark slide f, fig. 5;
+the spectrum is then withdrawn and the holder takes its place,
+and the lids d, d, are closed after removing the dark slide f.
+The plate is now ready to receive the image, and the cap c
+may be removed to admit the light into the box.
+
+A camera constructed by Voitlander is thus described by Mr. Fisher.
+"It is made entirely of brass, so that variations of climate has
+no effect upon it.  It is very portable and when packed in its box,
+with all the necessary apparatus and materials for practising
+the Daguerreotype art, occupies but very little space.
+It is not, however, well adapted for the Calotype process."
+
+"The brass foot A (fig. 7.), is placed on a table, or other firm support,
+and the pillar B. screwed into it; the body of the camera, C, C is laid
+into the double forked bearing D. D. The instrument is now properly
+adjusted by means of the set screws, e, e, e, in the brass foot,
+or it may be raised, lowered, or moved, by the telescope stand,
+and when correct, fixed by the screw b.  The landscape to be delineated
+is viewed either through the
+ [hipho_7.gif]
+small lens, g, or with the naked eye on the ground glass plate H,
+the focus being adjusted by the screw I. The optical part of the instrument
+consist of the small set of achromatic lenses already described.
+When the portrait or view is deleniated on the ground glass
+to the entire satisfaction of the operator, the brass cap L is
+placed over the lens, and the entire body is removed away into
+the dark, taking care not to disturb the position of the stand.
+The body is now detached at the part H, and the prepared paper
+or plate enclosed in the brass frame work introduced in its place;
+the whole is again placed upon the pedestal, the brass cap L is removed,
+by which the paper or plate is exposed to the full influence
+of the light, after which the cap is again replaced.
+
+Mr. Woodbridge, of this city, has constructed an instrument for taking full
+length portraits on plates 10 by 13 inches, which is worthy of some notice.
+It is a double camera, consisting of two boxes, placed in a frame,
+one above the other, and so arranged as to slide easily up and down.
+After the focus has been adjusted, on the object, in both cameras,
+the plate is put into the upper box, in the manner already described,
+until the superior portion of the figure is complete; it is then
+placed in the second box and the lower extremities obtained.
+The adjustment of the instrument is so complete that
+ [hipho_8.gif]
+a perfect union of the parts is effected in the picture without the least
+possible line of demarkation being visible.  Fig. 8 gives a front view
+of this instrument.
+
+Fig. 9 represents Talbot's Calotype Camera,--a very beautiful instrument.
+
+The copying camera box has an extra slide in the back end,
+by which it may be considerably lengthened at pleasure.
+
+II.--CAMERA STAND.--The best constructed stands are made
+of maple or blackwallnut wood, having a cast iron socket
+(a, fig.  12,) through which the sliding rod b passes, and into
+which the legs c, c, with iron screw ferules are inserted.
+The platform d is made of two pieces, hinged together,
+as at e, and having a thumb screw for the purpose of elevating
+or depressing the instrument.
+ [hipho_9.gif]
+
+III. MERCURY BATH.--Fig. 13 gives a front view of the mercury bath
+now in general use in this country for mercurializing and bringing
+out the picture.  It is quite an improvement on those first used.
+To make it more portable it is in three pieces, a b and c;
+having a groove e on one side to receive the thermometre tube and scale
+by which the proper degree of heating the mercury is ascertained.
+Into the top are nicely fitted two or three iron frames, with shoulders,
+for the plate to rest in, suitable for the different sizes of plates.
+The bath is heated by means of a spirit lamp placed under it.
+From two to four ounces of highly purified mercury are put into
+the bath at a time.
+
+IV. PLATE BLOCKS AND VICES.--There are several kinds of this article in use;
+I shall describe the two best only.
+
+Fig. 10 gives an idea of the improvement on the English hand block.
+The top a is perfectly flat
+ [hipho_10.gif]
+and smooth--a little smaller than the plate, so as to permit the latter
+to project a very little all around--having at opposite angles c c
+two clasps, one fixed the other moveable, but capable of being fastened
+by the thumb screw d, so as to secure the plate tightly upon the block.
+This block turns upon a swivle, b, which is attached to the table
+by the screw c, This block is only used for holding the plate while
+undergoing the first operation in cleaning.
+ [hipho_11.gif]
+
+Fig. 11, shows the form of Lewis' newly patented plate vice,
+which for durability, simplicity and utility is preferable to all others.
+It consists of a simple platform and arm of cast iron, the former,
+a, having a groove, d, in the centre for fixing the different sizes
+of plate beds, e--and the latter supporting the leaves, e f.
+On this vice which is secured to a table, or bench, the plate
+receives its finishing polish with rouge, or prepared lampblack.
+Mr. Lewis gives the following directions for its use.  "As the cam
+wears tighten it with the adjusting screw (g) so as to allow the lever
+(f) to fall back into a horizontal position; the plate being in its
+place at the time.  Oil the wearing parts occasionally."
+
+Some Daguerreotypists, however, use a foot lathe with buff wheels
+of various forms; but this vice is sufficient for all ordinary purposes.
+
+V. COATING BOXES.--The usual form for iodine and
+ [hipho_12.gif]
+ [hipho_13.gif]
+bromine boxes is see, at figs. 14 and 15.  They are far
+superior to those in use with the English operators.
+Each consists of a wooden box (a,) having firmly embeded within it
+a stout glass jar (c), the edges of which are ground.
+Over this is placed the sliding cover b, double the length
+of the box, one half occupied by a piece of ground glass
+(e), tightly pressed upon the glass pot by a spring (i) beneath
+the cross bar g, and fits the pot so accurately that it
+effectually prevents the escape of the vapor of the iodine,
+bromine or other accelerating liquid contained therein.
+The other half of the lid is cut through, shoulders being
+left at the four angles for the different sizes of frames,
+designed to recieve the plate while undergoing the coating process.
+When the plate is put into the frame, the cover b is shoved
+under the second lid h and when coated to the proper degree,
+it resumes its former position and the plate is placed in the holder
+of the camera box.  To test the tightness of the box, light a piece
+of paper, put it into the pot and cover it with the sliding lid.
+The burning paper expels the air from the pot, and if it
+be perfectly tight you may raise the whole box by the lid.
+
+VI. GLASS FUNNELS.--Are a necessary article to the Daguerreotypist,
+for filtering water, solutions, &c.
+ [hipho_14.gif]
+
+VII. GILDING STAND.--For nervous persons the gilding stand is
+a useful article.  It is adjusted to a perfect level by thumb
+screws placed in its base.
+
+VIII. SPIRIT LAMPS.--The most useful and economical of those
+made are the Britania, as they are less liable to break;
+and the tube for the wick being fastened to the body by a screw
+renders it less liable to get out of order or explode.
+Glass is the cheapest, and for an amateur will do very well,
+but for a professed artist the Britania should always be obtained.
+
+IX.  COLOR BOX.--These are generally found on sale at the shops,
+and usually contain eight colors, four brushes and a gold cup.
+The artist would, however, do well to obtain, all the colors mentioned
+in the last chapter of this work, and be sure to get the very best,
+as there are various qualities of the same color, particularly carmine,
+which is very expensive, and the cupidity of some may induce them
+to sell a poor article for the sake of larger profits.
+ [hipho_15.gif]
+
+STILL.--Daguerreotypists should always use distilled water for solutions,
+and washing the plate, as common water holds various substances in solution
+which detract very materially from the excellence of a photograph,
+and often gives much trouble, quite unaccountable to many.
+For the purpose of distilling water the apparatus represented at Fig. 16
+is both convenient and economical.
+
+It may be either wholly of good stout tin, or of sheet iron tinned
+on the inside, and may be used over a common fire, or on a stove.
+A is the body, which may be made to hold from one to four gallons of water,
+which is introduced at the opening b, which is then stopped by a cork.
+The tube d connects the neck a of the still with the worm tub,
+or refrigerator B, at e, which is kept filled with cold water by means
+of the funnel c, and drawn off as fast as it becomes warm by the cock f.
+The distilled water is condensed in the worm--and passes off at the cock b,
+under which a bottle, or other vessel, should be placed to receive it.
+The different joints are rendered tight by lute, or in its absence,
+some stiff paste spread upon a piece of linen and wrapped around them
+will answer very well; an addition of sealing wax over all will make
+them doubly secure.
+ [hipho_16.gif]
+
+HYGROMETER.--This is an instrument never to be found, I believe,
+in the rooms of our operators, although it would be of much use to them,
+for ascertaining the quantity of moisture floating about the room;
+and as it is necessary to have the atmosphere as dry as possible to prevent
+an undue absorption of this watery vapor by the iodine &c., and to
+procure good pictures,--its detection becomes a matter of importance.
+Mason's hygrometer, manufactured by Mr. Roach and sold by Mr. Anthony,
+205 Broadway, New York is the best in use.
+
+It consists of two thermometre tubes placed, side by side,
+on a metalic scale, which is graduated equally to both tubes.
+The bulb of one of these tubes communicates, by means of a
+net-work of cotton, with a glass reservoir of water attached
+to the back of the scale.  Fig. 17 and 18 represent a front
+and back view of this instrument.
+
+Fig.  17 is the front view, showing the tubes with their respective scales;
+the bulb b being covered with the network of cotton communicating with
+the reservoir c fig. 18, at d.
+ [hipho_17.gif]
+ [hipho_18.gif]
+The evaporation of the water from this bulb decreases the temperature
+of the mercury in the tube b in proportion to the dryness of the atmosphere,
+and the number of degrees the tube b indicates below that of the other,
+shows the real state of the atmosphere in the room; for instance,
+if b stands at forty and a at sixty-one the room is in a state
+of extreme dryness, the difference of twenty-one degrees between
+the thermometers--let a stand at any one point--gives this result.
+If they do not differ, or there is only four or five degrees variation,
+the atmosphere of the room is very moist and means should be taken
+to expel the superfluous quantity.
+
+HEAD RESTS.--The button head rest with chair back clip, A fig.
+19--is much the best for travelling artists, as it can be taken apart,
+into several pieces and closely packed; is easily and firmly
+fixed to the back of a chair by the clamp and screw a and b,
+and is readily adjusted to the head, as the buttons c, c and arms d,
+d are movable.
+
+Sometimes the button rest is fixed to a pole, which is screwed to the chair;
+but this method is not so secure and solid as the clip and occupies more room
+in packing.  Both the pole and clip, are furnished in some cases with brass
+band rests instead of the button; but the only recommendation these can
+possibly possess in the eyes of any artist, is their cheapness.
+ [hipho_19.gif]
+
+For a Daguerreotypist permanently located the independent iron head-rest,
+B fig. 19, is the most preferable, principally on account of its solidity.
+It is entirely of iron, is supported by a tripod a) of the same metal and can
+be elevated by means of a rod (b) passing through the body of the tripod,
+to a height sufficient for a person, standing, to rest against.
+
+GALVANIC BATTERY.--This article is used for the purpose of giving
+to imperfectly coated plates a thicker covering of silver.
+The form of battery now most universally employed for electrotype,
+and other galvanic purposes, is Smee's--Fig. 20.  It consists
+ [hipho_20.gif]
+of a piece of platinized silver, A, on the top of which is
+fixed a beam of wood, B, to prevent contact with the silver.
+A binding screw C is soldered on to the silver plate to connect
+it with any desired object, by means of the copper wire, e.
+A plate of amalgamated zinc, D, varying with the fancy of the operator
+from one half to the entire width of the silver is placed on each side
+of the wood.  This is set into a glass vessel, P,--the extreme ends
+of the wood resting upon its edge--on which the acid with which it
+is charged has no effect.  The jar is charged with sulphurid acid,
+(common oil of vitriol) diluted in eight parts its bulk of water.
+The zinc plates of the battery have been amalgamated with quicksilver,
+and when the battery is set into the jar of acid there should be no
+action percieved upon them when the poles F, G, are not in contact.
+Should any action be percieved, it indicates imperfect amalgamation;
+this can be easily remedied by pouring a little mercury upon them
+immediately after removing them from the acid, taking care to get
+none upon the centre plate A.
+
+Directions for use.--A sheet of silver must be attached
+to the wire connected with the centre plate A of the battery,
+and placed in the silver solution--prepared as directed below.
+The plate to be silvered is first cleaned with diluted sulphuric acid,
+and then attached to the wire, G, proceeding from the zinc
+plates D, D, and placed in the silver solution, opposite the silver
+plate attached to the pole F, and about half an inch from it.
+A slight effervescence will now be percieved from the battery,
+and the silver will be deposited upon the Daguerreotype plate,
+while at the same time a portion of the silver plate is dissolved.
+
+To prepare the solution of silver.--Dissolve one ounce
+of chloride of silver in a solution of two ounces of cyanide
+of potassium, previously dissolved in one quart of water.
+The oxide of silver may be used instead of the chloride.
+This solution is put into a tumbler, or other vessel.
+ [hipho_21.gif]
+ [hipho_22.gif]
+
+This battery with the necessary articles for using it may be obtained
+of E. Anthony, 205 Broadway, New York city.
+
+The other articles required by every operator may be simply enumerated, viz:
+
+Stickng, or sealing paper.
+
+A pair of pliers, or forceps.
+
+Porcelain pans or dishes, for applying the hyposulphite of soda and washing
+after the imagine is fixed, something in form like fig. 23.
+
+A support for holding the plate while being washed, like fig. 24
+ [hipho_25.gif]
+
+BUFF STICKS.--Fig. 25.--These are usually from one to three feet in length,
+and about three inches wide--some think two and a half sufficient.
+The underside, which is convex, is covered with a strip of finely
+prepared buckskin, or velvet, well padded with cotton or tow.
+
+All the articles enumerated in this chapter may be obtained,
+of the very best quality and at the most reasonable rates,
+of Mr. E. Anthony, 205, Broadway, New York.
+
+
+
+CHAP. VI.
+
+THE DAGUERREOTYPE PROCESS.
+
+The process of taking Daguerreotype pictures differs very materially
+from all others of the photographic art, inasmuch as the production
+of the image is effected upon plates of copper coated with silver.
+The silver employed should be as pure as possible; the thickness of the plate
+is of little consequence, provided there be sufficient silver to bear
+the cleaning and polishing--is free from copper spots, is susceptible
+of a high polish, an exquisitely sensitive coating and a pleasing tone.
+These qualities are possessed to an eminent degree by the French plates.
+
+Having already enumerated the various processes--and the apparatus
+necessary for the manipulation, I will here give a list of the
+chemicals to be used, and then proceed to explain them more fully.
+The requisite chemicals are--
+
+ NITRIC ACID,             ROUGE,
+ DRY IODINE,              MERCURY,
+ DRYING POWDER,           HYPOSULPHITE OF SODA,
+ CYANIDE OF POTASSIUM,    CHLORIDE OF GOLD; OR
+ ROTTENSTONE,             HYPOSULPHITE OF GOLD.
+ TRIPOLI,                 CHLORIDE OF SILVER.
+ CHLORIDE OF IODINE, } their compounds, or other
+ BROMINE             } accelerating mixtures.
+
+FIRST OPERATION.--Cleaning and polishing the plate.--
+For this purpose the operator will require the--
+
+Plate Blocks,
+
+Plate Vice
+
+Spirit Lamp,
+
+Polishing Buffs,
+
+Nitric Acid, diluted in fifteen times its bulk of water
+
+Galvanic Battery, to galvanize the plate, if it is too imperfect to be
+used without, previous cleaning it, as directed in the last chapter.
+
+Rottenstone,
+
+Tripoli, which is too often dispensed with.
+
+Rouge, or lampblack--the first being most preferable.
+The English operators mix the two together.
+
+Prepared cotton Wool, or Canton flannel.  If the first is used,
+it should be excluded from the dust, as it is not so easily
+cleansed as the latter.
+
+The plate is secured, with its silver side upward, to the block,
+by the means described on page 58--having previously turned the edges
+backward all around.  The amount of cleaning a plate requires,
+depends upon the state it is in.  We will suppose one in the
+worst condition; dirty, scratched, and full of mercury spots,
+all of which imperfections are more or less to be encountered.
+The mercury spots are to be removed by burning the plate.
+To do this hold the plate over the flame of a spirit lamp,
+more particularly under the mercury spots, until they,
+assume a dull appearance, when the lamp is to be removed,
+and the plate allowed to cool, after which it is attached
+to the block.
+
+Place the block upon the swivle, and hold it firmly with the left hand;
+take a small knot or pellet of cotton, or, if you like it better,
+a small piece of canton flannel--wet it with a little diluted nitric acid;
+then sift some finely prepared rottenstone--Davie's,* if you can get it--
+upon it, and rub it over the plate with a continual circular motion,
+till all traces of the dirt and scratches are removed; then wipe off
+the rottenstone with a clean piece of cotton, adopting, as before,
+a slight circular motion, at the same time wiping the edges of the plate.
+Even the back should not be neglected, but throughly cleansed from any
+dirt or greasy film it may have received from handling.
+
+* Sold by E. Anthony.
+
+When this is thoroughly accomplished, mix a portion of your tripoli
+with the dilute nitric acid, to the consistence of thick cream.
+Then take a pellet of cotton and well polish the plate with this mixture,
+in the same manner as with the rottenstone.  Continue the process till,
+on removing the tripoli with a clean pellet, the plate exhibits
+a clear, smooth, bright surface, free from all spots, or scratches.
+Any remains of the acid on the plate may be entirely removed By
+sifting on it a little Drying powder, and then wiping it carefully
+off with a fine camels hair brush, or duster.  The finishing polish
+is now to be given.
+
+For this purpose the rouge--or a mixture of rouge and lamp-black, in
+the proportion of one part of the former to seven of the latter--is used.
+It should be kept either in a muslin bag, or wide mouth bottle,
+over which a piece of muslin is tied--in fact, both the rottenstone
+and tripoli should be preserved from the dust in the same manner.
+With a little of this powder spread over the buff--described on page 53--
+the plate recieves its final polish; the circular motion is changed
+for a straight one across the plate, which, if intended for a portrait,
+should be buffed the narrow way; but if, for a landscape or view of a house,
+the length way of the plate.
+
+The operation of cleaning the plate at first appears difficult
+and tedious, and many have been deterred from attempting this
+interesting art on that account; but, in reality, it is more
+simple in practice than in description, and with a little
+patience and observation, all difficulties are easily overcome.
+Great care must be taken to keep the buff free from all
+extraneous matter, and perfectly dry, and when not in use it
+should be wrapped up in tissue paper, or placed in a tight box.
+
+The plate should be buffed immediately before the sensitive
+coating is given; particles of dust are thus effectually removed;
+the temperature of the plate is also increased by the friction,
+and the required tint more readily obtained.
+
+SECOND OPERATION.--Applying the sensative coating.--The apparatus
+and chemicals required, are an
+
+Iodine box--see fig. 14 page 53.
+
+Bromine box--similar to the iodine box but a trifle deeper.
+
+Dry Iodine.
+
+Bromine, or a compound of Bromine and Chloride of Iodine,
+or other sensitive mixture.
+
+Most of our best operators use the compound Bromine and
+Chloride of Iodine.  In the early days of the Daguerreotype,
+Iodine alone was used in preparing the plate, and although
+it still plays a very important part, other preparations,
+called accelerating liquids, quickstuff, &c., are used,
+and the discovery of which has alone ensured the application
+of the Daguerreotype successfully to portrait taking--for
+when first introduced among us it took from five to ten minutes
+to produce a tolerable good view, while now but the fraction
+of a minute is required to obtain an accurate likeness.
+
+To iodize the plate perfectly it must be placed over the iodine vapor
+immediately after buffing.  Scatter from a sixteenth to the eighth
+of an ounce of dry iodine over the bottom of your coating box,
+and slightly cover it with cotton wool.  The plate is then dropped
+into the frame b, fig. 12, with its silvered surface downward,
+and thrust under the lid h.  The bright surface of the plate
+is soon coated with a film of iodine of a fine yellow color;
+it is then removed and placed over the accelerating solution.
+It is not absolutely necessary to perform this operation
+in the dark, although a bright light should be avoided.
+Not so the next part of the process, viz; giving the plate its
+extreme sensitiveness, or coating with the accelerating liquids.
+In this great caution should be used to prevent the slightest
+ray of light impringing directly on the plate, and in
+examining the color reflected light should always be used.
+A convient method of examining the plate, is to make a small hole
+in the partition of the closet in which you coat, and cover it
+with a piece of tissue paper; by quickly turning the plate so that
+the paper is reflected upon it the color is very distinctly shown.
+Most of our operators are not so particular in this respect
+as they should be.
+
+ACCELERATING LIQUID.--Of these there are several kinds, which differ
+both in composition and action--some acting very quickly,
+others giving a finer tone to the picture although they are
+not so expeditious in there operations; or in other words,
+not so sensitve to the action of light.  These are adopted
+by Daguerreotypists according to their tastes and predjudices.
+They are all applied in the same way as the coating of iodine.
+The following are the best.
+
+Bromine water--This solution is much used in France, and, I shall
+therefore give its preparation, and the method of using it,
+in the words of M. Figeau.  "Put into a bottle of pure water,
+a large excess of bromine; shake the mixture well, and before using it,
+let all the bromine be taken up.  An ascertained quantity of this
+saturated water is then diluted in a given quantity of distilled water,
+which gives a solution of bromine that is always identical."
+M. Figeau recommends one part of the saturated solution to thirty
+parts its bulk of water; but M. Lesebour finds it more manageable
+if diluted with forty times.  In case pure distilled, or rain water
+cannot be procured, a few drops of nitric acid--say six to the quart--
+should be added to the common water.
+
+Put into the bromine box a given quantity of this solution,
+sufficient to well cover the bottom; the plate, having been
+iodized to a deep yellow, is placed over it; the time
+the plate should be exposed must be ascertained by making
+a few trials; it averages from twelve to forty seconds.
+When once ascertained, it is the same for any number of plates,
+as the solution, which of course would become weaker and weaker,
+is changed after every operation, the same quantity being
+always put into the pot.
+
+Chloride of Iodine.--This is prepared by introducing chlorine
+gass into a glass vessel containing iodine; the iodine
+is liquified, and the above named compound is the result.
+Operators need not, however, be at the trouble and expense of
+preparing it, as it can be obtained prefectly pure of Mr. Anthony,
+205 Broadway, N. Y., as also all of the chemicals herein enumerated.
+The compound is diluted with distilled water, and the plate submitted
+to its action till it is of a rose color.  Chloride of iodine alone,
+is seldom if ever used now by American operators, as it does not
+sufficiently come up to their locomotive principle of progression.
+The next is also eschewed by the majority, although many of our
+best artists use no other, on account of the very fine tone it
+gives to pictures.
+
+Bromide of Iodine.--This is a compound of bromine and chloride
+of iodine.  In mixing it, much depends upon the strength of
+the ingredients; an equal portion of each being generally used.
+Perhaps the best method of preparing it, is to make a solution in
+alcohol of half an ounce of chloride of iodine, and add the bromine
+drop by drop, until the mixture becomes of a dark red color;
+then dilute with distilled water, till it assumes a bright yellow.
+Put about half an ounce of this compound into the pot, and coat
+over it to a violet color, change the solution when it becomes
+too weak to produce the desired effect.
+
+Another.--Mix half an ounce of bromine with one ounce of chloride
+of iodine, add two quarts pure distilled water, shake it well and let
+it stand for twelve hours then add twenty-five drops of muriatic acid,
+and let it stand another twelve hours, occasionally shaking it up well.
+Dilute six parts of this solution in sixteen of water.  Coat over dry
+iodine to a deep yellow, then over the sensitive to a deep rose color--
+approaching purple--then back, over dry iodine from four to eight seconds.
+
+Roach's Tripple Compound.--This is one of the very best
+sensitive solutions, and is very popular among Daguerreotypists.
+To use this, take one part in weight, say one drachm,
+of the compound and dilute it with twelve of water; coat over
+dry iodine to yellow, then over the compound to a rosy red.
+The effect in the camera is quick, and produces a picture
+of a fine white tone.
+
+Gurney's Sensitive.--This is another preparation of bromine,
+and gives a fine tone.  To two parts of water add one of
+the sensitive, and put just sufficient in the box to cover
+the bottom, or enable you to coat in from eight to ten seconds.
+Coat over dry iodine to a dark yellow, and over the quick
+till you see a good change, then back over the dry iodine
+from two to three seconds.
+
+Bromide of Lime, or Dry Sensitive.--This is a compound but
+recently introduced, and is becoming somewhat of it favorite,
+owing principally to the slight trouble it gives in its preparation,
+and the tone it imparts to the picture.  To prepare it,
+fill your jar about half or quarter full of dry slacked lime,
+then drop into it bromine, till it becomes a bright orange red.
+The plate is generally coated over this compound,
+after the iodine coating to yellow, to a violet, or plum color;
+but it will work well under any circumstances, the color being
+of little consequence, if coated from thirty to ninety seconds,
+according to its strength.
+
+Mead's Accelerator.--I merely mention this as being in
+the market, not knowing any thing in regard to its merits.
+The directions given for its use are as follows:
+Mix one-third of a bottle with a wine glass full of water,
+coat the plate over dry iodine to a dark gold color, then over
+the accelerator to a violet, then back over dry iodine,
+or chloride of iodine, from three to five seconds.
+
+Chloride of Bromine.--M. Bissou, a French experimentalist, has found that
+bromine associated with chlorine, prepared in a similar manner to chloride
+of iodine, already described, a solution of bromine being substituted
+for the iodine, is a very sensitive solution; by means of it daguerreotype
+proofs are obtained in half a second, and, thus very fugitive subjects
+are represented, making it the very best compound for taking children.
+So quick is its operation, that even persons or animals may be taken
+in the act of walking.
+
+Hungarian Liquid.--This, I believe, has never been used here, or imported
+into this country, and the composition of it is not generally known,
+even in Europe, where it has taken precedence of all others.
+It acts quickly and with considerable certainty.  It is used
+by diluting it with from ten to fifteen times its bulk of water,
+putting a sufficient quantity into the jar to cover the bottom.
+The plate being previously iodized to a light yellow, is submitted
+to this mixture till it assumes a light rose tint.
+
+Bromine and Fluoric Acid, in combination, are used by some Daguerrean
+artists as a sensitive, but any of the above compounds are better;
+besides this, the fluoric acid is a dangerous poison, and the quick
+made from it will not repay the risk to the health in using it.
+
+As I have before said, great caution should be observed in examining
+the color of the plate, even by the feeble light allowed,
+which, when attained, must be immediately placed in the holder
+belonging to the camera and covered with the dark slide.
+You then pass to the
+
+THIRD OPERATION.--Submitting the Plate to the action of Light in
+the Camera.--Experience alone must guide the operator as to the time
+the plate should be exposed to the influence of the light; this being
+dependent on a variety of circumstances, as clearness of the atmosphere--
+and here, a reference to the hygrometer will be of advantage--
+time of day, object to be taken, and the degree of sensitiveness
+imparted to the plate by the quickstuff.  As I have before said,
+the artist should be careful to see that the interior of the camera
+is clean and free from dust, as the small particles flying about,
+or set in motion by the sliding of the holder into the box,
+attach themselves to the plate, and cause the little black spots,
+by which an otherwise good picture is frequently spoiled.
+Care should also be taken in withdrawing the dark slide, in front
+of the plate, from the holder, as the same effect may be produced
+by a too hasty movement.  The lens is the last thing to be uncovered,
+by withdrawing the cap c. fig. 5., which should not be done
+until you have placed the sitter in the most desirable position.
+When, according to the judgment and experience of the operator,
+the plate has remained long enough to receive a good inpression,
+the cap is replaced over the lens, and the dark slide over the plate,
+which is then removed from the camera.
+
+Daguerreotypists generally mark time by their watches, arriving at the nearest
+possible period for producing a good picture by making several trials.
+As a ready method of marking short intervals of time is, however, a very
+important consideration, and as any instrument which will enable an artist
+to arrive at the exact period, must be an improvement, and worthy of
+universal adoption, I will here describe one invented by Mr. Constable
+of England, which he calls a
+
+Sand Clock, or Time Keeper.--"It consists of a glass tube,
+about twelve inches long, by one in diameter, half filled
+with fine sand, similar to that used for the ordinary
+minute glasses, and, like them, it has a diaphram,
+with a small hole in the centre through which the sand runs.
+The tube is attached to a board which revolves on a centre pin;
+on the side is a graduated scale, divided into half seconds;
+the tube is also provided with a moveable index.
+This instrument is attached, in a conspicuous place, to the wall.
+The glass tube being revolved on its centre, the index is set
+to the number of half seconds required, and the sand running down,
+the required time is marked without the possibility of error.
+In practice it will be found to be a far more convenient
+instrument for the purpose than either a clock or a seconds watch,
+and is applicable both for the camera and mercury box."
+
+If the artist finds it desirable or necessary to take the object to be
+copied in its right position, that is reverse the image on the spectrum,
+he can do so by attaching a mirror (which may be had of Mr. Anthony,
+or Mr. Roach) to the camera tube, at an angle of forty-five degrees.
+
+If, after taking the plate from the camera, it be examined,
+no picture will yet be visible, but this is brought about by the
+
+FOURTH PROCESS.--Bringing out the Picture, or rendering it Visible.--
+We now come to the use of the mercury bath, Fig. 11.  To the bath
+a thermometer is attached, to indicate the proper degree of beat required,
+which should never be raised above 170 deg. Fahrenheit.  The plate maybe
+put into one of the frames (see Fig. 11,) over the mercury, face downwards,
+and examined from time to time, by simply raising it with the fingers,
+or a pair of plyers.  This operation, as well as the others, should take
+place in the dark closet.
+ [hipho_26.gif]
+Sometimes, to prevent the necessity of raising the plate,
+an additional cover or top is made use of.  It consists of a
+box fitted closely to the inner rim of the bath, and having
+an inclined top (a, Fig. 27.) The top is cut through and fitted
+with frames for each size of plate, like those already described,
+and in the back is a piece of glass (b,) through which to view
+the progress of mercurialization, and an additional piece
+(c,) on one side, colored yellow, to admit the light.
+The outline only of the top is here given, in order to show
+every portion of it at one view.
+
+The picture, being fully developed, is now taken out and examined;
+it must not, however, be exposed to too strong a light.
+If any glaring defects be perceived, it is better not to proceed with it,
+but place it on one side to be re-polished; if, on the contrary,
+it appears perfect, you may advance to the
+
+FIFTH OPERATION.--Fixing the Image so that the light can no longer act
+upon it.--The following articles are required for this purpose:
+
+Two or three porcelain or glass dishes, in form, something like fig. 24.
+
+A plate support, fig. 25.  Few, I believe, now make use of this,
+although it is a very convenient article.
+
+Hyposulphite of Soda,
+
+A pair of Plyers.
+
+In Europe, they also use a drying apparatus, Fig. 27, but this,
+like the plate support,
+ [hipho_27.gif]
+is a matter of little consequence, and may be dispensed with.
+I will, however, describe it, for the benefit of those who may wish
+to use it.
+
+A vessel made of copper or brass, tinned inside, and large enough
+to take in the largest plate, but not more than half an inch wide,
+is the most convenient.  It must be kept perfectly clean.
+Hot distilled water is poured into it, and the temperature kept
+up by a spirit lamp.
+
+Hyposulphite of Soda.--Having made a solution of hyposulphite
+of soda, and well filtered it--the strength is immaterial;
+about half an ounce of the salt to a pint of distilled water
+is sufficient--pour it into one of the porcelain dishes,
+put into another plain, and into a third distilled water.
+Immerse the plate with its face downwards into the hyposulphite,
+and the whole of the sensitive is removed, and the light has
+no farther action upon it; it is then to be removed from
+the hyposulphite and plunged into the plain water, or placed
+upon the support, fig. 25, and the water poured over it.
+It is then washed in a similar manner with the distilled water
+and well examined, to see that not the slightest particle
+of dust rests on the suface.  The next step is to dry it.
+
+This may be readily accomplished by holding the plate with your plyers,
+and pouring distilled water over it--if it is hot, so much the better.
+Apply the spirit lamp to the back, at the corner held by the plyers,
+at the same time facilitating the operation with the breath;
+pass the lamp gradually downwards, finishing at the extreme corner.
+The last drop may now be removed by a little bibulous paper.
+A single drop, even, of distilled water allowed to dry on any
+part of the surface, is certain to leave a stain which no after
+process can remove.
+
+To illustrate the necessity for having perfectly clean water, and free from
+all foreign matter--only to be avoided by using that which is distilled--
+in these processes, I will relate a little anecdote.
+
+An operator in this city (New York) frequently made complaint to me,
+that his plates were occasionally very bad; coming out all over in
+little black and white spots and spoiling many very good pictures,
+regretting at the same time that perfect plates were not made,
+for he had lost many customers in consequence of these defects.
+These complaints being somewhat periodical, I suggested that the fault
+might be in the hyposulphite, or chloride of gold solutions,
+or particles of dust floating about in the room, and not in the plate.
+
+A few days after he stated, that his plates having served him again
+in the same way, he procured a fresh supply of hyposulphite of soda
+and chloride of gold, but after applying them the result was no better.
+He then, by my advice, thoroughly cleaned his wash dishes,
+bottles and water pail, made fresh solutions and had no further trouble,
+becoming satisfied that the plates suffered an undue share of censure.
+
+SIXTH PROCESS.--Gilding the Picture.--This is an improvement
+the honor of which is due to M. Figeau, and may take place either
+before the drying process, or at any subsequent period; but it
+improves the picture so materially that it should never be neglected.
+The articles necessary for gilding are--
+
+A Pair of Plyars; or a Gilding Stand (see fig. 19) and Chloride of Gold;
+or Hyposulphite of Gold.
+
+The latter is imported by Mr. E. Anthony, 205 Broadway,
+New York, and is decidedly the best article for the purpose.
+One bottle simply dissolved in a quart of water will make
+a very strong solution, and gives a richness to the picture
+impossible to be obtained from the chloride of gold.
+The process is precisely similar to that described below
+for chloride of gold, taking care to cease the moment
+the bubbles are well defined over the surface of the plate.
+Many Daguerreotypists, after a superficial trial, discard the
+hyposulphite of gold as inferior; but I have no hesitation
+in asserting that the fault lies with themselves; for in every
+case within my knowledge, where its use has been persisted
+in until the correct method has been ascertained and the nature
+of the gilding has become familiar, it is always preferred.
+In illustration of this fact I will relate an anecdote:
+
+A gentleman to whom it had been recommended, purchased a bottle,
+and after making one or two trials of it, wrote to his
+correspondent--"Send me two bottles of chloride of gold,
+for I want no more of the hyposulphite; it is good for nothing."
+A few weeks after he sent for three bottles of the condemned article,
+confessing that be had found fault unnecessarily; for, that since he had
+become familiar to its use, he must acknowledge its superiority,
+and would use no other gilding.
+
+The Solution of Chloride of Gold is prepared by dissolving in a pint
+of distilled water, fifteen grains of chrystalized chloride of gold.
+This solution will be of a yellow tint.  In another pint of distilled
+water dissolve fifty-five grains of hyposulphite of soda; pour gradually,
+in very small quantities, the gold into the hyposulphite of soda,
+stirring the solution at intervals; when finished the mixture should
+be nearly colorless.
+
+Place the plate on its stand, or hold it in the plyers, in a perfectly
+horrizontal position--silver surface upward--having previously
+slightly turned up the edges, so that it may hold the solution.
+Wet the surface with alcohol, letting any superfluous quantity drain off.
+The alcohol is of no farther use than to facilitate the flowing
+of the gold mixture over the surface.  Now pour on, carefully,
+as much of the preparation of gold as will remain on the plate.
+The under part of the plate is then to be heated as uniformly
+as possible with the spirit lamp; small bubbles will arrise,
+and the appearance of the portrait or view very sensibly improved.
+The process must not be carried too far, but as soon as the bubbles
+disappear the lamp should be removed, and the plate immersed
+in distilled water, and dried as before directed.
+
+7th. COLORING THE PICTURE.--I very much doubt the propriety of coloring
+the daguerreotypes, as I am of opinion, that they are little, if any,
+improved by the operation, at least as it is now generally practised.
+
+There are several things requisite in an artist to enable him to color
+a head, or even a landscape effectively, and correctly, and I must say
+that very few of these are possessed by our operators as a class.
+These requirements are, a talent for drawing--taste--due discrimination
+of effect--strict observance of the characteristic points in the features
+of the subject--quick perception of the beautiful, and a knowledge
+of the art of mixing colors, and blending tints.
+
+The method now pursued, I do not hesitate to say, and have no fears
+of being contradicted by those capable of critisizing is on the whole
+ruinous to any daguerreotype, and to a perfect one absolutely disgusting.
+The day may come when accurate coloring may be obtained in the camera.
+Until that day, if we cannot lead taste into the right channel, we will
+endeavor to give such instructions that Daguerreotypists may proceed with this
+part of his work with a better understanding of the principles involved.
+For this purpose I have prepared a short chapter on the art of coloring,
+which may be found in the latter part of this volume.
+
+To Preserve Daguerreotypes they must be well sealed and secured
+in a case, or frame.  These, of course, are selected according to
+the taste of the customer, the principal requisite being good glass.
+Most Daguerreotypists prefer the white French plate glass--and
+many think, very erroneously, that none is good unless it is thick--
+but the great desideratum is clearness and freedom from blisters;
+even glass a little tinged with green or yellow is to be
+preferred to the French plate when cloudy or blistered and there
+is very little of it comes to this market that is not so.
+It is to be hoped that some of our glass factories will manage
+to manufacture an article expressly for daguerreotypes;
+and I would recommend them to do so, for they would find it quite
+an item of profit annually.
+
+Before enclosing the picture in the case you should be careful
+to wipe the glass perfectly clean, and blow from the picture
+any particles of dust which may have fallen upon it.
+Then take strips of sticking paper, about half or three quarters
+of an inch wide, and firmly and neatly secure it to the glass,
+having first placed a "mat" between them to prevent the plate
+being scratched by the glass.
+
+TO MAKE SEALING PAPER.--Dissolve one ounce of gum arabic,
+and a quarter of an ounce of gum tragicanth in a pint of water;
+then add a teaspoonful of benzoin.  Spread this evenly on one
+side of good stout tissue paper; let it dry, and then cut it up
+in stripes, about half or three quarters of an inch wide, for use.
+If it becomes too soft for summer use, add gum arabic;
+if too hard and cracking, add benzoin or gum tragicanth;
+if it gets too thick, add water.
+
+COLORED DAGUERREOTYPES ON COPPER.--To effect this, take a polished plate
+of copper and expose it to the vapor of iodine, or bromine, or the two
+substances combined; or either of them in combination with chlorine.
+This gives a sensitive coating to the surface of the plate,
+which may then be submitted to the action of light in the camera.
+After remaining a sufficient time in the camera, the plate is
+taken out and exposed to the vapor of sulphuretted hydrogen.
+This vapor produces various colors on the plate, according to
+the intensity with which the light has acted on the different parts;
+consequently a colored photographic picture is obtained.
+No further process is necessary as exposure to light does not
+effect the picture.
+
+By this process we have an advantage over the silvered plate,
+both in economy, and in the production of the picture in colors.
+
+INSTANTANTANEOUS PICTURES BY MEANS OF GALVANISM.--It will be seen by
+the following valuable communication that galvanism can be successfully
+applied in producing pictures instantly; a process of great importance
+in securing the likeness of a child, or in taking views of animated nature.
+Colonel Whitney informs me that he once took a view of the steeple of
+the St. Louis Court House after sundown by this means) and also secured
+the image of a man in the act of stepping into a store, and before he had
+time to place his foot, raised for that purpose, on the door step.
+Mr. Whitney is well known as the talented editor of the Sunday Morning news.
+
+
+ New York, January 16, 1849.
+ Mr. H. H. SNELLING.
+
+Dear Sir,--As you are about publishing a history of the Daguerreotype,
+and request a description of my mode of taking pictures instantaneously
+by the aid of galvanism, I comply with great pleasure.
+
+In the year 1841, while practicing the art in St. Louis, Mo., I
+was at times, during the summer, much troubled with the electric
+influence of the atmosphere, especially on the approach of a
+thunder-storm. At such times I found the coating of my plates
+much more sensitive than when the atmosphere was comparatively
+free from the electric fluid, and the effect was so irregular
+that no calculation could counteract the difficulty.
+This satisfied me that electricity was in some measure
+an important agent in the chemical process, and it occurred
+to me that the element might be turned to advantage.
+I determined, therefore, to enter on a series of experiments to test
+my theory.  Finding it impossible to obtain an electric machine,
+and unwilling to abandon the examination, it occurred to me,
+that the galvanic influence might answer the same purpose.
+I therefore proceeded to make a galvanic battery in the following
+simple manner.  I obtained a piece of zinc about two
+inches long, one inch wide, and an eighth of an inch thick.
+On this I soldered a narrow strip of copper, about six inches long,
+the soldered end laid on one side of the zinc, and extending
+its whole length.  The battery was completed by placing the zinc
+in a glass tumbler, two-thirds full of dilute sulphuric acid,
+strong enough to produce a free action of the metals.
+The upper end of the copper slip extending above the tumbler
+was sharpened to a point, and bent a little over the glass.
+
+The method of using, was thus:--After preparing the plate in the usual
+manner and placing it in the camera, in such manner as to expose
+the back of the plate to view, the battery was prepared by placing
+the zinc in the acid, and as soon as the galvanic fluid began
+to traverse (as could be known by the effervessence of the acid,
+operating on the zinc and copper) the cap of the camera was removed,
+and the plate exposed to the sitter; at the same instant the point
+of the battery was brought quickly against the back of the plate,
+and the cap replaced instantly.  If the plate is exposed more than an
+instant after the contact the picture will generally be found solarized.
+By this process I have taken pictures of persons in the act of walking,
+and in taking the pictures of infants and young children I found
+it very useful.
+ Very respectfully yours,
+ THOMAS R. WHITNEY.
+
+
+
+CHAP. VII
+
+PAPER DAGUERREOTYPES.--ETCHING DAGUERREOTYPES.
+
+
+Mr. Hunt describes a process, discovered by himself
+by which the Daguerrean art may be applied to paper.
+His description is as follows:--
+
+"Placing the paper on some hard body, wash it over on one side--
+by means of a very soft camel's hair pencil--with a solution
+of sixty grains of bromide of potassium, in two fluid ounces
+of distilled water, and then dry it quickly by the fire.
+Being dry, it is again washed over with the same solution,
+and dried as before.  A solution of nitrate of silver--
+one hundred grains to an ounce of distilled water--is to be applied
+over the same surface, and the paper quickly dried in the dark.
+In this state the papers may be kept for use.
+
+"When they are required, the above solution of silver
+is to be plentifully applied, and the paper placed wet in
+the camera, the greatest care being taken that no day light--
+not even the faintest gleam--falls upon it until the moment
+when you are prepared, by removing the dark slide, to permit
+the light, radiating from the object you wish to copy, to act
+in producing the picture.  After a few seconds the light must
+be again shut off, and the camera removed into a dark room."
+The necessity of removing the camera is now avoided by the use
+of the dark slide, already described, covering the picture
+in the holder, which alone may be removed.--Amer. Aut.
+
+"It will be found by taking the paper from the holder, that there
+is but a very faint outline--if any--yet visible.  Place it aside,
+in perfect darkness until quite dry; then place it in the mercurial
+vapor box (meaning bath) and apply a very gentle heat to the bottom.
+The moment the mercury vaporizes, the picture will begin to develope itself.
+The spirit lamp must now be removed for a short time, and when the action
+of the mercury appears to cease, it is to be very carefully applied again,
+until a well defined picture is visible.  The vaporization must
+then be suddenly stopped, and the photograph removed from the box.
+The drawing will then be very beautiful and distinct; but much detail
+is still clouded, for the developement of which it is only necessary
+to place it in the dark and suffer it to remain undisturbed for
+some hours.  There is now an inexpressible charm about the pictures,
+equaling the delicate beauty of the daguerreotype; but being very
+susceptible of change, it must be viewed by the light of a taper only.
+The nitrate of silver must now be removed from the paper, by well washing
+it in soft water, to which a small quantity of salt has been added,
+and it should afterwards be soaked in water only.  When the picture has
+been dried, wash it quickly over with a soft brush dipped in a warm
+solution of hyposulphite of soda, and then wash it for some time
+in distilled water, in order that all the hyposulphite may be removed.
+The drawing is now fixed and we may use it to procure positive copies,
+(the original being termed a negative,) many of which may be taken
+from one original."
+
+"The action of light on this preparation, does indeed appear
+to be instantaneous.  The exquisite delicacy of this preparation
+may be imagined, when I state that in five seconds in the camera,
+I have, during sunshine, obtained perfect pictures, and that when
+the sky is overcast, one minute is quite sufficient to produce
+a most decided effect."
+
+"This very beautiful process is not without its difficulties;
+and the author cannot promise that, even with the closest attention
+to the above directions, annoying failures will not occur.
+It often happens that some accidental circumstance--generally a
+projecting film or a little dust--will occasion the mercurial vapor
+to act with great energy on one part of the paper, and blacken it
+before the other portions are at all effected.  Again, the mercury
+will sometimes accumulate along the lines made by the brush,
+and give a streaky appearance to the picture, although these lines
+are not at all evident before the mercurial vapor was applied.
+(A brush sufficiently large--and they may be easily obtained--
+will, in a measure, prevent this difficulty.--Amer Au.)
+I have stated that the paper should be placed wet in the camera;
+the same paper may be used dry, which often is a great convenience.
+When in the dry state a little longer exposure is required;
+and instead of taking a picture in four or five seconds,
+two or three minutes are necessary."
+
+The durability of daguerreotypes has been, and is still,
+doubted by many, but experiment has proved that they are more
+permanent than oil paintings or engravings.
+
+ETCHING DAGUERREOTYPES.--There are several methods of accomplishing
+this object; discovered and applied by different individuals.
+
+The first process was published at Vienna by Dr. Berres, and consisted
+in covering the plate with the mucilage of gum arabic, and then immersing
+the plate in nitric acid of different strengths.
+
+Mr. Figeau, of whom I have already spoken, likewise discovered a process
+for the engraving of Daguerreotypes; and founded on the belief that the lights
+of a Daguerreotype plate consists of unaltered silver, while the dark
+or shadows consists of mercury or an amalgam of mercury with silver.
+He finds that a compound acid, consisting of a mixture of nitric, nitrous,
+and muriatic acids, or of nitric mixed with nitrate of potass and common salt,
+has the property of attaching the silver in presence of the mercury without
+acting upon the latter.  Bi-chloride of copper answers the purpose also,
+but less completely.
+
+"When the clean surface of a Daguerreotype plate is exposed to
+the action of this menstruum, particularly if warm, the white parts,
+or lights are not altered, but the dark parts are attacked,
+and chloride of silver is formed, of which an insoluable coating
+is soon deposited, and the action of the acid soon ceases.
+This coat of chloride of silver is removed by a solution of ammonia,
+and then the acid applied again, and so on, until the depth
+of biting in is sufficient.  However, it is not possible,
+by repeating this process, to get a sufficient force of impression;
+a second operation is required, in order to obtain such a depth as will
+hold the ink, to give a dark impression; for this purpose the whole
+plate is covered with drying oil; this is cleared off with the hand,
+exactly in the way a copper plate printer cleans his plate.
+The oil is thus left in the sinkings, or dark bitten in parts only.
+The whole plate is now placed in a suitable apparatus, and the lights
+or prominent parts of the face are gilt by the electrotype process.
+The whole surface is now touched with what the French engravers call
+the "Resin Grain," (grain de resine), a species of partial stopping out,
+and it is at once bitten in to a sufficient depth with nitric acid,
+the gilding preserving the lights from all action of the acid.
+The resin grain gives a surface to the corroded parts suitable
+for holding the ink, and the plate is now finished and fit to give
+impressions resembling aquatint.  But as silver is so soft a metal
+that the surface of the plate might be expected to wear rapidly,
+the discoverer proposes to shield it by depositing over its whole
+surface a very thin coat of copper by the electrotype process;
+which when worn may be removed at pleasure down to the surface of
+the noble metal beneath, and again a fresh coat of copper deposited;
+and so an unlimited number of impressions obtained without injuring
+the plate itself."
+
+If, as has been asserted, steel may be rendered sufficiently sensitive,
+to take photographic impressions, to what a revolution will the art
+of engraving be subject by the discovery of this process.
+
+
+
+CHAP.  VIII.
+
+PHOTOGENIC DRAWING ON PAPER.
+
+
+We shall now proceed to describe the various processes for
+Photogenic drawing on paper; first, however, impressing on
+the mind of the experimenter, the necessity which exists
+for extreme care in every stage of the manipulation.
+In this portion of my work I am entirely indebted to the works
+of Professors Hunt, Fisher and others.
+
+I. APPARATUS AND MATERIALS.--Paper.--The principal difficulty
+to be contended with in using paper, is the different power
+of imbibition which we often find possessed in the same sheet,
+owing to trifling inequalities in its texture.  This is, to a
+certain extent, to be overcome by a careful examination of each sheet,
+by the light of a candle or lamp at night, or in the dark.
+By extending each sheet between the light and the eye,
+and slowly moving it up and down, and from left to right,
+the variations in its texture will be seen by the different
+quantities of light which pass through it in different parts;
+and it is always the safest course to reject every sheet in which
+inequalities exist.  Paper sometimes contains minute portions
+of thread, black or brown specks, and other imperfections,
+all of which materially interfere with the process.  Some paper
+has an artificial substance given to it by sulphate of lime
+(Plaster of Paris); this defect only exists, however, in the
+cheaper sorts of demy, and therefore can be easily avoided.
+In all cases such paper should be rejected, as no really
+sensitive material can be obtained with it.  Paper-makers, as
+is well known, often affix their name to one half the sheet;
+this moiety should also be placed aside, as the letters
+must frequently come out with annoying distinctness.
+Well sized paper is by no means objectionable, indeed, is rather
+to be preferred, since the size tends to exalt the sensitive
+powers of the silver.  The principal thing to be avoided,
+is the absorption of the sensitive solution into the pores;
+and it must be evident that this desideratum cannot be obtained
+by unsized paper.  Taking all things into consideration,
+the paper known as satin post would appear to be preferable,
+although the precautions already recommended should be taken
+in its selection.
+
+Brushes.--The necessary solutions are to be laid upon the paper by brushes.
+Some persons pass the paper over the surface of the solutions,
+thus licking up, as it were, a portion of the fluid; but this method
+is apt to give an uneven surface; it also rapidly spoils the solutions.
+At all events, the brush is the most ready and the most effectual means.
+
+Distilled Water.--All the water used, both for mixing the solutions,
+washing the paper, or cleaning the brushes, must be distilled,
+to obtain good results, for reasons before specified.
+
+Blotting Paper.--In many instances, the prepared paper requires to be
+lightly dried with bibulous paper.  The best description is the white sort.
+In each stage of the preparation distinct portions of bibulous paper must
+be used.  If these be kept seperate and marked, they can be again employed
+for the same stage; but it would not do, for example, to dry the finished
+picture in the same folds in which the sensitive paper had been pressed.
+A very convenient method is to have two or three quarto size books
+of bibulous paper, one for each seperate process.
+
+Nitrate of Silver.--In the practice of the photographic art,
+much depends on the nitrate of silver.  Care should be taken
+to procure the best; the crystalized salt is most suitable
+for the purpose.  While in the form of crystal it is not injured
+by exposure to light, but the bottles containing the solutions
+of this salt should at all times be kept wrapped in dark paper,
+and excluded from daylight.
+
+II. DIFFERENT METHODS OF PREPARING THE PAPER.--Preparation of the Paper.--
+Dip the paper to be prepared into a weak solution of common salt.
+The solution should not be saturated, but six or eight times diluted
+with water.  When perfectly moistened, wipe it dry with a towel,
+or press it between bibulous paper, by which operation the salt
+is uniformly dispersed through its substance.  Then brush over it,
+on one side only, a solution of nitrate of silver.  The strength of this
+solution must vary according to the color and sensitiveness required.
+Mr. Talbot recommends about fifty grains of the salt to an ounce
+of distilled water.  Some advise twenty grains only, while others say
+eighty grains to the ounce.  When dried in a dark room, the paper
+is fit for use.  To render this paper still more sensitive, it must
+again be washed with salt and water, and afterwards with the same
+solution of nitrate of silver, drying it between times.  This paper,
+if carefully made, is very useful for all ordinary photographic purposes.
+For example, nothing can be more perfect than the images it gives
+of leaves and flowers, especially with a summer's sun; the light,
+passing through the leaves, delineates every ramification of their fibres.
+In conducting this operation, however, it will be found that the results
+are sometimes more and sometimes less satisfactory, in consequence
+of small and accidental variations in the proportions employed.
+It happens sometimes that the chloride of silver formed on the surface of
+the paper is disposed to blacken of itself, without any exposure to light.
+This shows that the attempt to give it sensibility has been carried too far.
+The object is, to approach as nearly to this condition as possible
+without reaching it; so that the preparation may be in a state ready
+to yield to the slightest extraneous force, such as the feeblest
+effect of light.
+
+Cooper's Method.--Soak the paper in a boiling hot solution of
+chlorate of potash (the strength matters not) for a few minutes;
+then take it out, dry it, and wet it with a brush, on one side only,
+dipped in a solution of nitrate of silver, sixty grains to an ounce
+of distilled water, or, if not required to be so sensitive,
+thirty grains to the ounce will do.  This paper possesses a great
+advantage over any other, for the image can be fixed by mere washing.
+It is, however, very apt to become discolored even in the washing,
+or shortly afterwards, and is, besides, not so sensitive, nor does
+it become so dark as that made according to Mr. Talbot's method.
+
+Daguerre's Method.--Immerse the paper in hydrochloric (or as it
+is more commonly called, muriatic) ether, which has been kept
+sufficiently long to become acid; the paper is then carefully and
+completely dried, as this is essential to its proper preparation.
+It is then dipped into a solution of nitrate of silver,
+and dried without artificial heat in a room from which every ray
+of light is carefully excluded.  By this process it acquires
+a very remarkable facility in being blackened on a very slight
+exposure to light, even when the latter is by no means intense.
+The paper, however, rapidly loses its extreme sensitiveness to light,
+and finally becomes no more impressionable by the solar beams
+than common nitrate paper.
+
+Bromide Paper.--Of all common photographic paper, the best,
+because the least troublesome in making, and the most satisfactory
+in result, is that which is termed bromine paper, and which is thus
+prepared:--Dissolve one hundred grains of bromide of potassium
+in one ounce of distilled water, and soak the paper in this solution.
+Take off the superfluous moisture, by means of your bibulous paper,
+and when nearly dry, brush it over on one side only, with a solution
+of one hundred grains of nitrate of silver to an ounce of distilled water.
+The paper should then be dried in a dark room, and, if required to be
+very sensitive, should a second time be brushed over with the nitrate
+of silver solution.
+
+In preparing the papers mentioned above, there are two circumstances
+which require particular attention.  In the first place,
+it is necessary to mark the paper on the side spread with the
+solutions of nitrate of silver, near one of the extreme corners.
+This answers two purposes:  in the first place it serves to inform
+the experimemtalist of the sensitive surface; and secondly,
+it will be a guide as to which portion of the papers has been
+handled during the application of the solution, as the impress
+of the fingers will probably come out upon the photograph.
+The second caution is, that the application of the sensitive solution
+(nitrate of silver,) and the subsequent drying of the paper,
+must be always conducted in a perfectly dark room, the light
+of a candle alone being used.
+
+III. PHOTOGENIC PROCESS ON PAPER.--Method.--The simplest
+mode is to procure a flat board and a square of glass,
+larger in size than the object intended to be copied.
+On the board place the photographic paper
+ [hipho_29.gif]
+with the prepared side upwards, and upon it the object to be copied;
+over both lay the glass and secure them so that they are
+in close connection by means of binding screws or clamps,
+similar to g. g. fig. 29.  Should the object to be copied
+be of unequal thickness, such as a leaf, grass, &c., it will
+be necessary to place on the board, first, a soft cushion,
+which may be made of a piece of fine flannel and cotton wool.
+By this means the object is brought into closer
+contact with the paper, which is of great consequence,
+and adds materially to the clearness of the copy.
+The paper is now exposed to diffused daylight, or, still better,
+to the direct rays of the sun, when that part of the paper not
+covered by the object will become tinged with a violet color,
+and if the paper be well prepared, it will in a short time pass
+to a deep brown or bronze color.  It must then be removed,
+as no advantage will be obtained by keeping it longer exposed;
+on the contrary, the delicate parts yet uncolored will become
+in some degree affected.  The photogenic paper will now show
+a more or less white and distinct representation of the object.
+The apparatus figured at 29 consists of a wooden frame similar
+to a picture frame; a piece of plate glass is fixed in front;
+and it is provided with a sliding cover of wood, c., which is removed
+when the paper is ready to be exposed to the action of the light.
+The back, d., which is furnished with a cushion, as just described,
+is made to remove for the purpose of introducing the object
+to be copied, and upon it the prepared paper; the back
+is then replaced, and, by aid of the cross piece and screw,
+e., the whole is brought into close contact with the glass.
+
+The objects best delineated on these photographic papers,
+are lace, feathers, dried plants, particularly the ferns,
+sea-weeds and the light grasses, impressions of copper plate and
+wood engravings, particularly if they have considerable contrast
+of light and shade--(these should be placed with the face downwards,
+having been previously prepared as hereafter directed)--
+paintings on glass, etchings, &c.
+
+To fix the Drawings.--Mr. Talbot recommends that the drawings
+should be dipped in salt and water, and in many instances this
+method will succeed, but at times it is equally unsuccessful.
+Iodide of potassium, or, as it is frequently called,
+hydriodate of potash, dissolved in water, and very much diluted,
+(twenty-five grains to one ounce of water,) is a more useful
+preparation to wash the drawings with; it must be used
+very weak or it will not dissolve the unchanged muriate only,
+as is intended but the black oxide also, and the drawing
+be thereby spoiled.
+
+But the most certain material to be used is the hyposulphite of soda.
+One ounce of this salt should be dissolved in about a pint
+of distilled water.  Having previously washed the drawing
+in a little lukewarm water, which of itself removes a large
+portion of the muriate of silver which is to be got rid of,
+it should be dipped once or twice in the hyposulphite solution.
+By this operation the muriate which lies upon the lighter parts
+will become so altered in its nature as to be unchanged by light,
+while the rest remains dark as before.
+
+It will be evident from the nature of the process, that the lights
+and shadows of an object are reversed.  That which is originally
+opaque will intercept the light, and consequently those parts
+of the photogenic paper will be least influenced by light,
+while any part of the object which is transparent, by admitting
+the light through it, will suffer the effect to be greater
+or less in exact proportion to its degree of transparency.
+The object wholly intercepting the light will show a white impression;
+in selecting, for example, a butterfly for an object, the insect,
+being more or less transparent, leaves a proportionate gradation
+of light and shade, the most opaque parts showing the whitest.
+It may be said, therefore, that this is not natural, and in order
+to obtain a true picture--or, as it is termed, a positive picture--
+we must place our first acquired photograph upon a second piece
+of photogenic paper.  Before we do this, however, we must render
+our photograph transparent, otherwise the opacity of the paper
+will mar our efforts.
+
+To accomplish this object, the back of the paper containing the negative,
+or first acquired photograph, should be covered with white or virgin wax.
+This may be done by scraping the wax upon the paper, and then, after placing
+it between two other pieces of paper, passing a heated iron over it.
+The picture, being thus rendered transparent, should now be applied to a
+second piece of photogenic paper, and exposed, in the manner before directed,
+either to diffused day-light or to the direct rays of the sun.
+The light will now penetrate the white parts, and the second photograph
+be the reverse of the first, or a true picture of the original.
+
+Instead of wax, boiled linseed oil--it must be the best and most
+transparent kind--may be used.  The back of the negative photograph should
+be smeared with the oil, and then placed between sheets of bibulous paper.
+When dry the paper is highly transparent.
+
+IV. APPLICATION OF PHOTOGENIC DRAWING.--This method of photogenic drawing
+may be applied to useful purposes, such as the copying of paintings
+on glass by the light thrown through them on the prepared paper--
+Imitations of etchings, which may be accomplished by covering
+a piece of glass with a thick coat of white oil paint; when dry,
+with the point of a needle, lines or scratches are to be made
+through the white lead ground, so as to lay the glass bare;
+then place the glass upon a piece of prepared paper, and expose it
+to the light.  Of course every line will be represented beneath
+of a black color, and thus an imitation etching will be produced.
+It is also applicable to the delineation of microscopic objects,
+architecture, seulpture, landscapes and external nature.
+
+A novel application of this art has been recently suggested,
+which would doubtless prove useful in very many instances.
+By rendering the wood used for engravings sensitive to light,
+impressions may be at once made thereon, without the aid
+of the artist's pencil.  The preparation of the wood is
+simply as follows:--Place its face or smooth side downwards,
+in a plate containing twenty grains of common salt dissolved
+in an ounce of water; here let it remain for five minutes,
+take it out and dry it; then place it again face downwards
+in another plate containing sixty grains of nitrate of
+silver to an ounce of water; here let it rest one minute,
+when taken out and dried in the dark it will be fit for use,
+and will become, on exposure to the light, of a fine brown color.
+Should it be required more sensitive, it must be immersed
+in each solution a second time, for a few seconds only.
+It will now be very soon effected by a very diffused light.
+
+This process may be useful to carvers and wood engravers not
+only to those who cut the fine objects of artistical design,
+but still more to those who cut patterns and blocks for lace,
+muslin, calico-printing, paper hangings, etc., as by this means
+the errors, expense and time of the draughtsman may be wholly saved,
+and in a minute or two the most elaborate picture or design,
+or the most complicated machinery, be delineated with the utmost
+truth and clearness.
+
+
+
+CHAP. IX.
+
+CALOTYPE AND CHRYSOTYPE.
+
+
+The materials and apparatus necessary for the Calotype process are--
+
+Two or Three Shallow Dishes, for holding distilled water, iodide, potassium,
+&c.--the same water never being used for two different operations.
+
+White Bibulous Paper.
+
+Photogenic Camera--Fig. 9.
+
+Pressure Frame--Fig 29.
+
+Paper, of the very best quality--directions for the choice
+of which have been already given.
+
+A Screen of Yellow Glass.
+
+Camels' or Badgers' hair Brushes:--A seperate one being kept
+for each wash and solution, and which should be thoroughly
+cleansed immediately after using in distilled water.
+That used for the gallo-nitrate is soon destroyed, owing to
+the rapid decomposition of that preparation.
+
+A Graduated Measure.
+
+Three or Four Flat Boards, to which the paper may be fixed
+with drawing pins.
+
+A Hot Water Drying Apparatus, for drying the paper will also be found useful.
+
+In preparing the Calotype paper, it is necessary to be extremely careful,
+not only to prevent the daylight from impringing upon it, but also
+to exclude, if possible, the strong glare of the candle or lamp.
+This may be effected by using a shade of yellow glass or gauze,
+which must be placed around the light.  Light passing through such
+a medium will scarcely affect the sensitive compounds, the yellow
+glass intercepting the chemical rays.
+
+Preparation of the Iodized Paper.--Dissolve one hundred grains
+of crystalized nitrate of silver in six ounces of distilled water,
+and having fixed the paper to one of the boards, brush it
+over with a soft brush on one side only with this solution,
+a mark being placed on that side whereby it may be known.
+When nearly dry dip it into a solution of iodide of potassium,
+containing five hundred grains of that salt dissolved in a pint of water.
+When perfectly saturated with this solution, it should be washed
+in distilled water, drained and allowed to dry.  This is the first part
+of the process, and the paper so prepared is called iodized paper.
+It should be kept in a port-folio or drawer until required:
+with this care it may be preserved for any length of time without
+spoiling or undergoing any change.
+
+Mr. Cundell finds a stronger solution of nitrate of silver preferable,
+and employs thirty grains to the ounce of distilled water:
+he also adds fifty grains of common salt to the iodide of potassium,
+which he applies to the marked side of the paper only.
+This is the first process.
+
+Preparation of the paper for the Camera.--The second process consists
+in applying to the above a solution which has been named by Mr. Talbot
+the "Gallo-Nitrate of Silver;" it is prepared in the following manner:
+Dissolve one hundred grains of crystalized nitrate of silver in two
+ounces of distilled water, to which is added two and two-third drachms
+of strong acetic acid.  This solution should be kept in a bottle
+carefully excluded from the light.  Now, make a solution of gallic
+acid in cold distilled water:  the quantity dissolved is very small.
+When it is required to take a picture, the two liquids above described
+should be mixed together in equal quantities; but as it speedily
+undergoe decomposition, and will not keep good for many minutes, only just
+sufficient for the time should be prepared, and that used without delay.
+It is also well not to make much of the gallic acid solution,
+as it will not keep for more than a few days without spoiling.
+A sheet of the iodized paper should be washed over with a brush with this
+mixed solution, care being taken that it be applied to the marked side.
+This operation must be performed by candle light.  Let the paper
+rest half a minute, then dip it into one of the dishes of water,
+passing it beneath the surface several times; it is now allowed to drain,
+and dried by placing its marked side upwards, on the drying apparatus.
+It is better not to touch the surface with bibulous paper.
+It is now highly sensitive, and ready to receive the impression.
+In practice it is found better and more economical not to mix the nitrate
+of silver and gallic acid, but only to brush the paper with the solution
+of the nitrate.
+
+Mr. Talbot has recently proposed some modifications in his method of
+preparing the calotype paper.  The paper is first iodized in the usual way;
+it is then washed over with a saturated solution of gallic acid in distilled
+water and dried.  Thus prepared he calls it the io-gallic paper:
+it will remain good for a considerable time if kept in a press or portfolio.
+When required for use, it is washed with a solution of nitrate of silver
+(fifty grains to the ounce of distilled water), and it is then fit
+for the camera.
+
+Exposure in the Camera.--The calotype paper thus prepared
+possesses a very high degree of sensibility when exposed
+to light, and we are thus provided with a medium by which,
+with the aid of the photogenic camera, we may effectually copy
+views from nature, figures, buildings, and even take portraits
+from the shadows thrown on the paper by the living face.
+The paper may be used somewhat damp.  The best plan for fixing
+it in the camera is to place it between a piece of plate
+glass and some other material with a flat surface, as a piece
+of smooth slate or an iron plate, which latter, if made warm,
+renders the paper more sensitive, and consequently the picture
+is obtained more rapidly.
+
+Time of Exposure.--With regard to the time which should be
+allowed for the paper to remain in the camera, no direct rules
+can be laid down; this will depend altogether upon the nature
+of the object to be copied, and the light which prevails.
+All that can be said is, that the time necessary for forming
+a good picture varies from thirty seconds to five minutes,
+and it will be naturally the first object of the operator
+to gain by experience this important knowledge.
+
+Bringing Out the Picture.--The paper when taken from the camera,
+which should be done so as to exclude every ray of light--and here
+the dark slide of the camera plate holder becomes of great use--
+bears no resemblance to the picture which in reality is formed.
+The impression is latent and invisible, and its existence would
+not be suspected by any one not acquainted with the process by
+previous experiment.  The method of bringing out the image is very simple.
+It consists in washing the paper with the gallo-nitrate of silver,
+prepared in the way already described, and then warming it gently,
+being careful at the same time not to let any portion become
+perfectly dry.  In a few seconds the part of the paper upon
+which the light has acted will begin to darken, and finally grow
+entirely black, while the other parts retain their original color.
+Even a weak impression may be brought out by again washing
+the paper in the gallo-nitrate, and once more gently warming it.
+When the paper is quite black, as is generally the case, it is a
+highly curious and beautiful phenomenon to witness the commencement
+of the picture, first tracing out the stronger outlines, and then
+gradually filling up all the numerous and complicated details.
+The artist should watch the picture as it developes itself, and when in his
+judgment it has attained the greatest degree of strength and clearness,
+he shall stop further proceedings by washing it with the fixing liquid.
+Here again the mixed solution need not be used, but the picture
+simply brushed over with the gallic acid.
+
+The Fixing Process.--In order to fix the picture thus obtained,
+first dip it into water; then partly dry it with bibulous paper,
+and wash it with a solution of bromide of potassium--containing one hundred
+grains of that salt dissolved in eight or ten ounces of distilled water.
+The picture is again washed with distilled water, and then finally dried.
+Instead of bromide of potassium, a solution of hyposulphite of soda,
+as before directed, may be used with equal advantage.
+
+The original calotype picture, like the photographic one described
+in the last chapter, is negative, that is to say, it has its lights
+and shades reversed, giving the whole an appearance not conformable
+to nature.  But it is easy from this picture to obtain another
+which shall be conformable to nature; viz., in which the lights
+shall be represented by lights, and the shades by shades.
+It is only necessary to take a sheet of photographic paper (the bromide
+paper is the best), and place it in contact with a calotype picture
+previously rendered transparent by wax or oil as before directed.
+Fix it in the frame, Fig. 29, expose it in the sunshine for a short time,
+and an image or copy will be formed on the photogenic paper.
+The calotype paper itself may be used to take the second, or positive,
+picture, but this Mr. Talbot does not recommend, for although it
+takes a much longer time to take a copy on the photogenic paper,
+yet the tints of such copy are generally more harmonious and agreeable.
+After a calotype picture has furnished a number of copies it
+sometimes grows faint, and the subsequent copies are inferior.
+This may be prevented by means of a process which revives the strength
+of the calotype pictures.  In order to do this, it is only
+nesessary to wash them by candlelight with gallo-nitrate of silver,
+and then warm them.  This causes all the shades of the picture
+to darken considerably, while the white parts are unaffected.
+After this the picture is of course to be fixed a second time.
+It will then yield a second series of copies, and, in this way,
+a great number may frequently be made.
+
+The calotype pictures when prepared as we have stated, possess a
+yellowish tint, which impedes the process of taking copies from them.
+In order to remedy this defect, Mr. Talbot has devised the
+following method.  The calotype picture is plunged into a solution
+consisting of hyposulphite of soda dissolved in about ten times
+its weight of water, and heated nearly to the boiling point.
+The picture should remain in about ten minutes; it must then
+be removed, washed and dried.  By this process the picture
+is rendered more transparent, and its lights become whiter.
+It is also rendered exceedingly permanent.  After this process
+the picture may be waxed, and thus its transparency increased.
+This process is applicable to all photographic papers prepared
+with solutions of silver.
+
+Having thus fully, and it is hoped clearly, considered the process,
+it may be necessary before dismissing the calotype from notice,
+to add one or two remarks from the observations and labors
+of some who have experimented in this art.  Dr. Ryan in his
+lectures before the Royal Polytechnic Institution, has observed,
+that in the iodizing process the sensitiveness of the paper
+is materially injured by keeping it too long in the solution
+of iodide of potassium, owing to the newly formed iodide
+of silver being so exceedingly solvable in excess of iodide
+of potassium as in a few minutes to be completely removed.
+The paper should he dipped in the solution and instantly removed.
+There is another point, too, in the preparation of the iodized
+paper in which suggestions for a slight deviation from
+Mr. Talbot's plan have been made.  In the first instance,
+it is recommended that the paper be brushed over with the iodide
+of potassium, instead of the nitrate of silver, transposing,
+in fact, the application of the first two solutions.
+The paper, having been brushed over with the iodide of potassium
+in solution, is washed in distilled water and dried.
+It is then brushed over with nitrate of silver, and after
+drying is dipped for, a moment in a fresh solution of iodide
+of potassium of only one-fourth the strength of the first,
+that is to say, one hundred and twenty-five grains of the salt
+to a pint of water.  After this it is again washed and dried.
+The advantage derived from this method, is a more sensitive paper,
+and a more even distribution of the compounds over the surface.
+
+Another deviation from Mr. Talbot's method has been suggested, as follows:
+
+Brush the paper over with a solution of one hundred grains
+of nitrate of silver to an ounce of water.  When nearly,
+but not quite, dry, dip it into a solution of twenty-five
+grains of iodide of potassium to one ounce of distilled water,
+drain it, wash it in distilled water and again drain it.
+Now brush it over with aceto-nitrate of silver, made by dissolving
+fifty grains of nitrate of silver in one ounce of distilled water,
+to which is added one sixth of its volume of strong acetic acid.
+Dry it with bibulous paper, and it is ready for receiving the image.
+When the impression has been received, which will require from one
+to five minutes according to the state of the weather, it must be
+washed with a saturated solution of gallic acid to which a few drops
+of the aceto-nitrate of silver, made as above, have been added.
+The image will thus be gradually brought out, and may be fixed with
+hyposulphite of soda.  To obtain the positive picture, paper must
+be used brushed over with an ammonio-nitrate of silver, made thus:
+forty grains of nitrate of silver is to be dissolved in one ounce
+of distilled water, and liquid ammonia cautiously added till it
+re-dissolves the precipitate.
+
+A pleasing effect may be given to calotype, or indeed
+to all photographic pictures, by waxing them at the back,
+and mounting them on white paper, or if colored paper be used,
+various beautiful tones of color are produced.
+
+POSITIVE CALOTYPE.
+
+At a meeting of the British Association, Professor Grove
+described a process by which positive calotype pictures could
+be directly obtained; and thus the necessity to transfer
+by which the imperfections of the paper are shown, and which
+is moreover a troublesome and tedious process, is avoided.
+As light favors most chemical actions, Mr. Grove was led
+to believe that a paper darkened by the sun (which darkening
+is supposed to result from the precipitation of silver)
+might be bleached by using a solvent which would not attack
+the silver in the dark, but would do so in the light.
+The plan found to be the most successful is as follows:
+ordinary calotype paper is darkened till it assumes a deep
+brown color, almost amounting to black; it is then redipped
+into the ordinary solution of iodide of potassium, and dried.
+When required for use it is drawn over dilute nitric acid--
+one part acid to two and a half parts water.  In this state,
+those parts exposed to the light are rapidly bleached,
+while the parts not exposed remain unchanged.  It is fixed
+by washing in water, and subsequently in hyposulphite of soda,
+or bromide of potassium.
+
+Mr. Grove also describes a process for converting a negative
+calotype into a positive one, which promises, when carried out,
+to be of great utility.
+
+Let an ordinary calotype image or portrait be taken in the camera,
+and developed by gallic acid; then drawn over iodide of potassium
+and dilute nitric acid and exposed to full sunshine; while bleaching
+the dark parts, the light is redarkening the newly precipitated iodide
+in the lighter portions and thus the negative picture is converted
+into a positive one.
+
+The calotype process has been applied to the art of printing,
+in England, but it possesses no advantages whatever over
+the method, with type, now so gloriously brought to perfection;
+and I can hardly think it will ever be made of any utility.
+For the benefit of the curious, however, I will give
+Mr. Talbot's method.
+
+Some pages of letter-press are taken printed on one side only; and waxed,
+to render them more transparent; the letters are then cut out and sorted.
+To compose a new page lines are ruled on a sheet of white paper, and the
+words are formed by fixing the seperate letters in their proper order.
+The page being ready, a negative photograph is produced from it, from which
+the requisite number of positive photogenic copies may be obtained.
+
+Another method, which requires the use of the camera,
+consists in employing large letters painted on rectangular
+pieces of wood, colored white.  These are arranged in lines on
+a tablet or board, by slipping them into grooves which keep them
+steady and upright, thus forming a page on an enlarged scale.
+It is now placed before a camera, and a reduced image of it
+of the required size is thrown upon the sensitive paper.
+The adjustments must be kept invariable, so that the consecutive
+pages may not vary from one another in the size of the type.
+Mr. Talbot has patented his process, but what benefit he expects
+to derive from it, I am at a loss to determine.
+
+Enlarged copies of calotype or Daguerreotype portraits may be
+obtained by throwing magnified images of them, by means of lenses,
+upon calotype paper.
+
+THE CHRYSOTYPE.
+
+A modification of Mr. Talbot's process, to which the name of Chrysotype
+was given by its discoverer, Sir John Herschel, was communicated
+in June 1843 to the Royal Society, by that distinguished philosopher.
+This modification would appear to unite the simplicity of
+photography with all the distintness and clearness of calotype.
+This preparation is as follows.
+
+The paper is to be washed in a solution of ammonio-citrate of iron;
+it must then be dried, and subsequently brushed over with a solution of
+the ferro-sesquicyanuret of potassium.  This paper, when dried in a perfectly
+dark room, is ready for use in the same manner as if otherwise prepared,
+the image being subsequently brought out by any neutral solution of gold.
+Such was the first declaration of his discovery, but he has since found that
+a neutral solution of silver is equally useful in bringing out the picture.
+Photographic pictures taken on this paper are distinguished by a clearness
+of outline foreign to all other methods.
+
+
+
+CHAP. X.
+
+CYANOTYPE--ENERGIATYPE--CHROMATYPE--ANTHOTYPE--AMPHITYPE
+AND "CRAYON DAGUERREOTYPE."
+
+
+The several processes enumerated at the head of this chapter,
+are all discoveries of English philosophers, with the exception
+of the third and last named.  Anthotype was first attempted
+by M. Ponton a French savan, although it was reserved
+to Mr. Hunt to bring the process to its present state.
+The "Crayon Daguerreotype" is an improvement made by J. A Whipple,
+Esq., of Boston
+
+I. CYANOTYPE;
+
+So called from the circumstance of cyanogen in its combinations
+with iron performing a leading part in the process.
+It was discovered by Sir John Herschel.  The process is a simple one,
+and the resulting pictures are blue.
+
+Brush the paper over with a solution of the ammonio-citrate of iron.
+This solution should be sufficiently strong to resemble sherry wine in color.
+Expose the paper in the usual way, and pass over it very sparingly
+and evenly a wash of the common yellow ferro-cyanate of potass.
+As soon as the liquid is applied, the negative picture vanishes,
+and is replaced by a positive one, of a violet blue color, on a greenish
+yellow ground, which at a certain time possesses a high degree of sharpness,
+and singular beauty of tint.
+
+A curious process was discovered by Sir John Herschel,
+by which dormant pictures are produced capable of developement
+by the breath, or by keeping in a moist atmosphere.
+It is as follows.
+
+If nitrate of silver, specific gravity 1.200 be added to
+ferro-tartaric acid, specific gravity 1.023, a precipitate falls,
+which is in a great measure redissolved by a gentle heat,
+leaving a black sediment, which, being cleared by subsidence,
+a liquid of a pale yellow color is obtained, in which
+the further addition of the nitrate causes no turbidness.
+When the total quantity of the nitrated solution added amounts
+to about half the bulk of the ferro-tartaric acid, it is enough.
+The liquid so prepared does not alter if kept in the dark.
+Spread on paper, and exposed wet to the sunshine (partly shaded)
+for a few seconds, no impression seems to be made, but by degrees,
+although withdrawn from the action of light, it developes
+itself spontaneously, and at length becomes very intense.
+But if the paper be thoroughly dried in the dark,
+(in which state it is of a very pale greenish yellow color,)
+it possesses the singular property of receiving a dormant or
+invisible picture, to produce which from thirty to sixty seconds'
+exposure to sunshine is requisite.  It should not be exposed too long,
+as not only is the ultimate effect less striking, but a picture
+begins to be visibly produced, which darkens spontaneously after
+it is withdrawn.  But if the exposure be discontinued before
+this effect comes on, an invisible impression is the result,
+to develope which all that is necessary is to breathe upon it,
+when it immediately appears, and very speedily acquires
+an extraordinary intensity and sharpness, as if by magic.
+Instead of the breath, it may be subject to the regular action
+of aqueous vapor, by laying it in a blotting paper book,
+of which some of the outer leaves on both sides have been dampened,
+or by holding over warm water.
+
+II. ENERGIATYPE.
+
+Under this title a process has been brought forward by Mr. Hunt.
+It consists of the application of a solution of succinic acid
+to paper, which is subsequently washed over with nitrate of silver.
+The image is then to be taken either in the camera or otherwise,
+as required, and is brought out by the application of the sulphate of iron
+in solution.  Although this process has not come into general use,
+its exact description may be interesting to the general reader,
+and we therefore subjoin it.
+
+The solution with which the paper is first washed is to be prepared
+as follows:  succinic acid, two drachms; common salt, five grains;
+mucilage of gum arabic, half a fluid drachm; distilled water,
+one fluid drachm and a half.  When the paper is nearly dry,
+it is to be brushed over with a solution of nitrate of silver,
+containing a drachm of the salt, to an ounce of distilled water.
+It is now ready for exposure in the camera.  To bring out the dormant
+picture it is necessary to wash it with a mixture of a drachm
+of concentrated solution of the green sulphate of iron and two
+drachms and a half of mucilage of gum arabic.
+
+Subsequently, however, it has been found that the sulphate of iron
+produces upon all the salts of silver effects quite as beautiful
+as in the succinate.  On the iodide, bromide, acetate, and benzoate,
+the effects are far more pleasing and striking.  When pictures are produced,
+or the dormant camera image brought out, by the agency of sulphate
+of iron, it is remarkable how rapidly the effect takes place.
+Engravings can be thus copied almost instantaneously, and camera views
+obtained in one or two minutes on almost any preparation of silver.
+The common sulphate of copper solution has the same property.
+
+III. CHROMATYPE.
+
+Many efforts have been made to render chromatic acid an active agent
+in the production of photographs.  M. Ponton used a paper saturated with
+bichromate of potash, and this was one of the earliest photogenic processes.
+M. Becquerel improved upon this process by sizing the paper with starch
+previous to the application of the bichromate of potash solution,
+which enabled him to convert the negative picture into a positive one,
+by the use of a solution of iodine, which combined with that portion
+of the starch on which the light had not acted.  But by neither
+of these processes could clear and distinct pictures be formed.
+Mr. Hunt has, however, discovered a process which is so exceedingly simple,
+and the resulting pictures of so pleasing a character, that, although it
+is not sufficiently sensitive for use in the camera, it will be found
+of the greatest value for copying botanical specimens, engravings,
+or the like.
+
+The paper to be prepared is washed over with a solution of sulphate
+of copper--about one drachm to an ounce of water--and partially dried;
+it is then washed with a moderately strong solution of bichromate
+of potash, and dried at a little distance from the fire.
+Paper thus prepared may be kept any length of time, in a portfolio,
+and are always ready for use.
+
+When exposed to the sunshine for a time, varying with
+the intensity of the light, from five to fifteen or
+twenty minutes, the result is generally a negative picture.
+It is now to be washed over with a solution of nitrate of silver,
+which immediately produces a very beautiful deep orange picture
+upon a light dim colored, or sometimes perfectly white ground.
+This picture must be quickly fixed, by being washed in pure water,
+and dried.  With regard to the strength of the solutions,
+it is a remarkable fact, that, if saturated solutions be employed,
+a negative picture is first produced, but if the solutions
+be three or four times their bulk of water, the first action
+of the sun's rays darkens the picture, and then a very bleaching
+effect follows, giving an exceedingly faint positive picture,
+which is brought out with great delicacy by the silver solution.
+
+It is necessary that pure water should be used for the fixing,
+as the presence of any muriate damages the picture,
+and here arises another pleasing variation of the Chromatype.
+If the positive picture be placed in a very weak solution
+of common salt the image slowly fades out, leaving a faint
+negative outline.  If it now be removed from the saline solution,
+dried, and again exposed to sunshine, a positive picture
+of a lilac color will be produced by a few minutes exposure.
+Several other of the chromates may be used in this process,
+but none is so successful as the chromate of copper.
+
+IV. ANTHOTYPE.
+
+The expressed juice, alcholic, or watery infusion of flowers,
+or vegetable substances, may be made the media of photogenic action.
+This fact was first discovered by Sir John Herschel.
+We have already given a few examples of this in the third chapter.
+
+Certain precautions are necessary in extracting the coloring matter
+of flowers.  The petals of fresh flowers are carefully selected,
+and crushed to a pulp in a marble mortar, either alone or with
+the addition of a little alcohol, and the juice expressed
+by squeezing the pulp in a clean linen or cotton cloth.
+It is then to be spread upon paper with a flat brush, and dried
+in the air without artificial heat.  If alcohol be not added,
+the application on paper must be performed immediately, as the air
+(even in a few minutes), irrecoverably changes or destroys their color.
+If alcohol be present this change is much retarded, and in some
+cases is entirely prevented.
+
+Most flowers give out their coloring matter to alcohol or water.
+Some, however, refuse to do so, and require the addition of alkalies,
+others of acid, &c. Alcohol has, however, been found to enfeeble,
+and in many cases to discharge altogether these colors; but they are,
+in most cases, restored upon drying, when spread over paper.
+Papers tinged with vetegable colors must always be kept in the dark,
+and perfectly dry.
+
+The color of a flower is by no means always, or usually,
+that which its expressed juice imparts to white paper.
+Sir John Herschel attributes these changes to the escape of carbonic
+acid in some cases; to a chemical alteration, depending upon
+the absorption of oxygen, in others; and again in others,
+especially where the expressed juice coagulates on standing,
+to a loss of vitality, or disorganization of the molecules.
+To secure an eveness of tint on paper, the following manipulation
+is recommended:--The paper should be moistened on the back
+by sponging and blotting off.  It should then be pinned on
+a board, the moist side downwards, so that two of its edges
+(suppose the right-hand and lower ones) shall project a little
+beyond those of the board.  The board then being inclined
+twenty or thirty degrees to the horizon, the alcoholic tincture
+(mixed with a very little water, if the petals themselves be
+not very juicy) is to be applied with a brush in strokes from
+left to right, taking care not to go over the edges which rest
+on the board; but to pass clearly over those that project;
+and observing also to carry the tint from below upwards
+by quick sweeping strokes, leaving no dry spaces between them,
+but keeping up a continuity of wet spaces.  When all is wet,
+cross them by another set of strokes from above downwards,
+so managing the brush as to leave no floating liquid on the paper.
+It must then be dried as quickly as possible over a stove,
+or in a warm current of air, avoiding, however, such heat
+as may injure the tint.
+
+In addition to the flowers already mentioned in my third chapter,
+the following are among those experimented upon and found to give
+tolerable good photographic sensitives.  I can only enumerate them,
+referring the student, for any further information he may desire on
+the subject, to Mr. Hunt's work; although what I have said above is
+sufficient for all practical purposes; and any one, with the ambition,
+can readily experiment upon them, without further research, on any
+other flower he may choose.
+
+Viola Odorata--or sweet sented violet, yields to alcohol a rich blue color,
+which it imparts in high perfection to paper
+
+Senecio Splendens--or double purple groundsel, yields a beautiful
+color to paper.
+
+The leaves of the laurel, common cabbage, and the grasses,
+are found sufficiently senstive.
+
+Common Merrigold yields an invaluable faecula, which appears identical with
+that produced by the Wall-flower, and Cochorus japonica mentioned before,
+and is very sensitive, but photographs procured upon it cannot be preserved,
+the color is so fugitive.
+
+From an examination of the researches of Sir John Herschel on
+the coloring matter of plants, it will be seen that the action
+of the sun's rays is to destroy the color, effecting a sort
+of chromatic analysis, in which two distinct elements of color
+are separated, by destroying the one and leaving the other outstanding.
+The action is confined within the visible spectrum, and thus a broad
+distinction is exhibited between the action of the sun's rays
+on vegetable juices and on argentine compounds, the latter being
+most sensibly affected by the invisible rays beyond the violet.
+
+It may also be observed, that the rays effective in destroying
+a given tint, are in a great many cases, those whose union produces
+a color complementary to the tint destroyed, or, at least, one belonging
+to that class of colors to which such complementary tint may be preferred.
+For instance, yellows tending towards orange are destroyed with more
+energy by the blue rays; blues by the red, orange and yellow rays;
+purples and pinks by yellow and green rays.
+
+V. AMPHITYPE.
+
+This process is a discovery of Sir John Herschel and receives its name
+from the fact that both negative and positive photographs can be produced
+by one process.  The positive pictures obtained by it have a perfect
+resemblance to impressions of engravings with common printer's ink.
+The process, although not yet fully carried out, promises to be
+of vast utility.
+
+Paper proper for producing an amphitype picture may be prepared
+either with the ferro-tartrate or the ferro-citrate of the protoxide,
+or the peroxide of mercury, or of the protoxide of lead,
+by using creams of these salts, or by successive applications
+of the nitrates of the respective oxides, singly or in mixture,
+to the paper, alternating with solutions of the ammonia-tartrate
+or the ammonia-citrate of iron, the latter solution being last applied,
+and in more or less excess.  I purposely avoid stating proportions,
+as I have not yet been able to fix upon any which certainly succeed.
+Paper so prepared and dried takes a negative picture, in a time
+varying from half an hour to five or six hours, according to
+the intensity of the light; and the impression produced varies
+in apparent force from a faint and hardly perceptible picture
+to one of the highest conceivable fulness and richness both of tint
+and detail, the color being in this case a superb velvety brown.
+This extreme richness of effect is not produced unless lead
+be present, either in the ingredients used, or in the paper itself.
+It is not, as I originally supposed, due to the presence of free
+tartaric acid.  The pictures in this state are not permanent.
+They fade in the dark, though with very different degrees
+of rapidity, some (especially if free tartaric or citric acid
+be present) in a few days, while others remain for weeks unimpaired,
+and require whole years for their total obliteration.
+But though entirely faded out in appearance, the picture is only
+rendered dormant, and may be restored, changing its character
+from negative to positive, and its colors from brown to black,
+(in the shadows), by the following process:--A bath being prepared
+by pouring a small quantity of solution of pernitrate of mercury
+into a large quantity of water, and letting the subnitrated
+precipitates subside, the picture may be immersed in it,
+(carefully and repeatedly clearing off all air bubbles,)
+and allowed to remain till the picture (if any where visible,)
+is entirely destroyed; or if faded, till it is judged sufficient
+from previous experience; a term which is often marked by the
+appearance of a feeble positive picture, of a bright yellow hue,
+on the pale yellow ground of the paper.  A long time (several weeks)
+is often required for this, but heat accelerates the action,
+and it is often completed in a few hours.  In this state the picture
+is to be very thoroughly rinsed and soaked in pure warm water,
+and then dried.  It is then to be well ironed with a smooth iron,
+heated so as barely not to injure the paper, placing it,
+for greater security against scorching, between clean smooth paper.
+If then the process have been successful, a perfectly black positive
+picture is at once developed.  At first it most commonly happens
+that the whole picture is sooty or dingy to such a degree that it
+is condemned as spoiled, but on keeping it between the leaves
+of a book, especially in a moist atmosphere, by extremely slow
+degrees this dinginess disappears, and the picture disengages
+itself with continually increasing sharpness and clearness,
+and acquires the exact effect of a copper-plate engraving on
+a paper more or less tinted with a pale yellow.
+
+I ought to observe, that the best and most uniform specimens which I
+have procured have been on paper previously washed with certain
+preparations of uric acid, which is a very remarkable and powerful
+photographic element.  The intensity of the original negative
+picture is no criterion of what may be expected in the positive.
+It is from the production by one and the same action of light,
+of either a positive or negative picture according to the
+subsequent manipulations, that I have designated the process,
+thus generally sketched out, by the term Amphitype,--a name suggested
+by Mr. Talbot, to whom I communicated this singular result;
+and to this process or class of processes (which I cannot
+doubt when pursued will lead to some very beautiful results,)
+I propose to restrict the name in question, though it applies
+even more appropriately to the following exceedingly curious
+and remarkable one, in which silver is concerned:
+
+At the last meeting I announced a mode of producing, by means
+of a solution of silver, in conjunction with ferro-tartaric acid,
+a dormant picture brought into a forcible negative impression
+by the breath or moist air.  (See Cyanotype.) The solution
+then described, and which had at that time been prepared
+some weeks, I may here incidentally remark, has retained its
+limpidity and photogenic properties, quite unimpaired during
+the whole year since elapsed, and is now as sensitive as ever,--
+a property of no small value.  Now, when a picture (for example
+an impression from an engraving) is taken on paper washed
+with this solution, it shows no sign of a picture on its back,
+whether that on its face is developed or not; but if,
+while the actinic influence is still fresh upon the face,
+(i.e., as soon as it is removed from the light), the back
+be exposed for a very few seconds to the sunshine,
+and then removed to a gloomy place, a positive picture,
+the exact complement of the negative one on the other side,
+though wanting of course in sharpness if the paper be thick,
+slowly and gradually makes its appearance there, and in half
+an hour or an hour acquires a considerable intensity.
+I ought to mention that the "ferro-tartaric acid"
+in question is prepared by precipitating the ferro-tartrate
+of ammonia (ammonia-tartrate of iron) by acetate of lead,
+and decomposing the precipitate by dilute sulphuric acid.
+When lead is used in the preparation of Amphitype paper,
+the parts upon which the light has acted are found to be in
+a very high degree rendered water proof.--Sir J. Herschel.
+
+This process is a new invention of our countryman, J. A. Whipple,
+Esq., of Boston, and has been patented by M. A. Root, Esq., of Philadelphia.
+It will be seen, however, from the previous pages of my work that Mr. Root
+is mistaken in regard to his being the first improvement patented in
+this country, althongh it is unquestionably the first by an American.
+Of this improvement Mr. Root says:
+
+VI. "CRAYON DAGUERREOTYPE."
+
+"The improvement to which you refer is denominated "The
+Crayon Daguerreotype."  This invention made by Mr. J. A. Whipple,
+is the only improvement in Daguerreotyping, I believe,
+for which Letters Patent for the United States were ever issued.
+The pictures produced by this process--which is of the simplest
+description imaginable--have the appearance and effect of very fine
+"Crayon Drawings," from which the improvement takes its name.
+Some of our most distinguished artists have given it their
+unqualified admiration.  Among them, our Mezzotinto Engravers,
+especially John Sartain, Esq., who, from his rich embellishments
+to most of the leading Magazines and Annuals of the country,
+as well as from the celebrity of the superb Magazine which bears
+his name, is so well known and so well qualified to judge
+of its merits.  As an auxiliary to the artist, in furnishing
+heads to the Magazines, or other works, it is invaluable;
+the great object which it accomplishes being to give a finer
+effect and more distinct expression to all the features--
+the whole power of the instrument being directed to, and confined
+to the head."
+
+"The late hour at which this subject has been brought to our notice
+prevents so full a description as we would otherwise have been
+glad to furnish.  The New England States have been disposed of;
+negotiations for any of the others can be made through M. A. Root,
+140 Chestnut street, Philadelphia."
+
+"A series of beautiful portraits are about being prepared by
+the "Crayton Process" for the express purpose of being placed on
+the exhibition at the "Art Union," when amateurs, artists, and the
+public generally will have an opportunity of witnessing its effect.
+We are especially gratified with this striking improvement,
+from the advantages which it promises to the Daguerrean art."
+
+"It is admirably designed to excite a new interest on the subject
+through the community, and in this way--and from its tendency to render
+the art more generally useful, and to elevate and distinguish it--
+to make it to all a matter of more general importance."
+ "Yours respectfully,
+ "M. A. ROOT."
+
+In our second edition, we hope--with Mr. Root's permission--
+to lay the whole process before the public, although our
+artists must bear in mind that Mr. Root's patent secures to him
+the exclusive right of its application.
+
+
+
+CHAP. XI.
+
+ON THE PROBABILITY OF PRODUCING COLORED PICTURES BY THE SOLAR RADIATIONS--
+PHOTOGRAPHIC DEVIATIONS--LUNAR PICTURES--DRUMMOND LIGHT.
+
+
+Having before noticed the fact that some advances had been made towards
+taking Daguerreotypes in color, by means of solar rays, and expressed
+the hope that the day was not far distant when this might be accomplished,
+I here subjoin Mr. Hunt's remarks on this subject.
+
+Mr. Biot, in 1840, speaking of Mr. Fox Talbot's beautiful calotype pictures,
+considers as an illusion "the hope to reconcile, not only the intensity
+but the tints of the chemical impressions produced by radiations,
+with the colors of the object from which these radiations emanated."
+It is true that three years have passed away, and we have not yet
+produced colored images; yet I am not inclined to consider the hope
+as entirely illusive.
+
+It must be remembered that the color of bodies depends
+entirely upon the arrangement of their molecules.
+We have numerous very beautiful experiments in proof of this.
+The bi-niodide of mercury is a fine scarlet when precipitated.
+If this precipitate is heated between plates of glass,
+it is converted into crystals of a fine sulphur yellow,
+which remain of that color if undisturbed, but which becomes
+very speedily scarlet if touched with any pointed instrument.
+This very curious optical phenomena has been investigated
+by Mr. Talbot and by Mr. Warrington.  Perfectly dry sulphate
+of copper is white; the slightest moisture turns it blue.
+Muriate of cobalt is of a pale pink color; a very slight heat,
+by removing a little moisture, changes it to a green.
+These are a few instances selected from many which might be given.
+
+If we receive a prismatic spectrum on some papers, we have
+evidence that the molecular or chemical disturbance bears
+some relation to the color of each ray, or, in other words,
+that colored light so modifies the action of ENERGIA
+that the impression it makes is in proportion to the color
+of the light it accompanies, and hence there results a molecular
+arrangement capable of reflecting colors differently.
+Some instances have been given in which the rays impressed
+correspond with the colors of the luminous rays in a very remarkable
+manner.* One of the most decided cases is that of the paper
+prepared with the fluoride of soda and nitrate of silver.
+Sir John Herschel was, however, the first to obtain any good
+specimens of photographically impressed prismatic colorations.
+
+* See Mr. Hunt's "Researches on Light."
+
+It was noticed by Daguerre that a red house gave a reddish
+image on his iodized silver plate in the camera obscura;
+and Mr. Talbot observed, very early in his researches,
+that the red of a colored print was copied of a red color,
+on paper spread with the chloride of silver.**
+
+** In 1842, I had shown me a picture of a house in the Bowery,
+which had been repaired a few days previous, and in the wall a red
+brick left.  This brick was brought out on the Daguerreotype
+plate of precisely the same color as the brick itself.
+The same artist also exhibited to me, the full length portrait of a
+gentleman who were a pair of pantaloons having a blue striped figure.
+This blue stripe was fully brought out, of the same color,
+in the picture.--AMER. ED.
+
+"In 1840 I communicated to Sir John Herschel some very curious
+results obtained by the use of colored media, which he did me
+the honor of publishing in one of his memoirs on the subject
+from which I again copy it."
+
+"A paper prepared with muriate of barytes and nitrate of silver,
+allowed to darken whilst wet in the sunshine to a chocolate color, was placed
+under a frame containing a red, a yellow, a green, and a blue glass.
+After a week's exposure to diffused light, it became red under the red glass,
+a dirty yellow under the yellow glass, a dark green under the green,
+and a light olive under the blue.
+
+"The above paper washed with a solution of salt of iodine,
+is very sensitive to light, and gives a beautiful picture.
+A picture thus taken was placed beneath the above glasses,
+and another beneath four flat bottles containing colored fluids.
+In a few days, under the red glass and fluid, the picture became
+a dark blue, under the yellow a light blue, under the green
+it remained unchanged, whilst under the blue it became
+a rose red, which in about three weeks changed into green.
+Many other experiments of a similar nature have been tried
+since that time with like results.
+
+"In the summer of 1843, when engaged in some experiments on papers prepared
+according to the principles of Mr. Talbot's calotype, I had placed in a camera
+obscura a paper prepared with the bromide of silver and gallic acid.
+The camera embraced a picture of a clear blue sky, stucco-fronted houses,
+and a green field.  The paper was unavoidably exposed for a longer
+period than was intended--about fifteen minutes,--a very beautiful
+picture was impressed, which, when held between the eye and the light,
+exhibited a curious order of colors.  The sky was of a crimson hue,
+the houses of a slaty blue, and the green fields of a brick red tint.
+Surely these results appear to encourage the hope, that we may eventually
+arrive at a process by which external nature may be made to impress its
+images on prepared surfaces, in all the beauty of their native coloration."
+
+PHOTOGRAPHIC DEVIATIONS.
+
+Before taking leave of the subject of photogenic drawing,
+I must mention one or two facts, which may be of essential
+service to operators.
+
+It has been observed by Daguerre, and others, in Europe, and probably
+by some of our own artists, that the sun two hours after it has passed
+the meridian, is much less effective in the photographic process,
+than it is two hours previous to its having reached that point.
+This may depend upon an absorptive power of the air, which may reasonably
+be supposed to be more charged with vapor two hours before noon.
+The fuse of the hygrometer may possibly establish the truth or falsity
+of this supposition.  The fact, however, of a better result being produced
+before noon being established, persons wishing their portraits taken, will see
+the advantage of obtaining an early sitting, if they wish good pictures.
+On the other hand, if the supposition above mentioned prove true,
+a too early sitting must be avoided.
+
+If we take a considerable thickness of a dense purple fluid,
+as, for instance, a solution of the ammonia-sulphate of copper,
+we shall find that the quantity of light is considerably diminished,
+at least four-fifths of the luminous rays being absorbed,
+while the chemical rays permeate it with the greatest facility,
+and sensitive preparations are affected by its influence,
+notwithstanding the deficiency of light, nearly as powerfully
+as if exposed to the undecomposed sunbeams.
+
+It was first imagined that "under the brilliant sun and clear skies
+of the south, photographic pictures would be produced with much
+greater quickness than they could be in the atmosphere of Paris.
+It is found, however, that a much longer time is required.
+Even in the clear and beautiful light of the higher Alps, it has been proved
+that the production of the photographic picture requires many minutes more,
+even with the most sensitive preparations, than it does in London.
+It has also been found that under the brilliant light of Mexico,
+twenty minutes, and half an hour, are required to produce effects
+which in England would occupy but a minute; and travellers engaged
+in copying the antiquities of Yucatan have on several occasions abandoned
+the use of the photographic camera, and taken to their sketch books.
+Dr. Draper* has observed a similar difference between the chemical
+action of light in New York and Virginia.  This can be only explained
+by the supposition that the intensity of the light and heat of these
+climes interferes with the action of the ENERGIC rays on those sensitive
+preparations which are employed.
+
+* I would here take occasion to remark that our country man, Dr. Draper,
+is very frequently quoted by Mr, Huut in his "Researches."
+
+LUNAR PICTURES--DRUMMOND LIGHT.
+
+The Roman Astronomers state that they have procured
+Daguerreotype impressions of the Nebula of the sword of Orion.
+Signor Rondini has a secret method of receiving photographic images
+on lithographic stone; on such a prepared stone they have succeeded
+in impressing an image of the Nebula and its stars; "and from
+that stone they have been enabled to take impressions on paper,
+unlimited in number, of singular beauty, and of perfect precision."
+Experiments have, however, proved that "no heating power exists
+in the moon's rays, and that lunar light will not act chemically
+upon the iduret of silver."
+
+It was at one time supposed that terrestrial or artificial light
+possessed no chemical rays, but this is incorrect--Mr. Brande
+discovered that although the concentrated light of the moon,
+or the light even of olefiant gas, however intense, had no effect
+on chloride of silver, or on a mixture of chloride and hydrogen,
+yet the light emitted by electerized charcoal blackens the salt.
+At the Royal Polytechnic Institution pictures have been taken
+by means of sensitive paper acted upon by the Drummond Light;
+but it must of course be distinctly understood, that they are inferior
+to those taken by the light of the sun, or diffused daylight.
+
+If our operators could manage to produce good pictures in this
+way they would put money in their pockets, as many who cannot
+find time during the day would resort to their rooms at night.
+I throw out the hint in hopes some one will make the experiment.
+
+I have learned, since the above was written, that an operator in Boston
+succeeded a short time since in procuring very good pictures by the aid
+of the Drummond Light; but that the intensity of the light falling directly
+upon the sitter's face caused great difficulty, and he abandoned it.
+This may, probably, be remedied by interposing a screen of very thin
+tissue paper tinged slightly of a bluish color.
+
+
+
+CHAP. XII.
+
+ON COLORING DAGUERREOTYPES.
+
+
+Nearly, if not quite all the various colors used in painting may be made
+from the five primitive colors, black, white, blue, red and yellow,
+but for the Daguerrean artist it would be the best policy to obtain such
+as are required by their art already prepared.  In a majority of cases,
+the following will be found sufficient, viz.
+
+Carmine.
+
+Prussian Blue.
+
+White.
+
+Chrome Yellow, Gamboge, Yellow Ochre; or all three.*
+
+*Gamboge is best for drapery; Ochre for the face.
+
+Light Red.
+
+Indigo.
+
+Burnt Sienna.
+
+Bistre, or Burnt Umber.
+
+If, in coloring any part of a lady's or gentleman's apparel,
+it is found necessary to produce other tints and shades,
+the following combinations may be used:
+
+Orange--Mix yellow with red, making it darker or lighter by using
+more or less red.
+
+Purple--This is made with Prussian blue, or indigo and red.
+Carmine and Prussian blue producing the richest color,
+which may be deepened in the shadows by a slight addition
+of indigo or brown.
+
+Greens--Prussian blue and gamboge makes a very fine green, which may be varied
+to suit the taste of the sitter or operator, by larger portions of either,
+or by adding white, burnt sienna, indigo, and red, as the case may require.
+These combinations, under different modifications, give almost endless
+varieties of green.
+
+Brown--May be made of different shades of umber, carmine and lamp-black.
+
+Neutral tint--Is composed of indigo and lamp-black.
+
+Crimson--Mix carmine and white, deepening the shaded parts of the picture
+with additional carmine.
+
+Flesh Color--The best representative of flesh color is light red,
+brightened in the more glowing or warmer parts, with carmine,
+softened off in the lighter portions with white, and shaded
+with purple and burnt sienna.
+
+Lead Color--Mix indigo and white in proportions to suit.
+
+Scarlet--Carmine and light red.
+
+For Jewelry cups of gold and silver preparations accompany each box
+for Daguerreotypists, or may be procured separately.
+
+The method of laying colors on Daguerreotypes is one of
+considerable difficulty, inasmuch as they are used in the form
+of perfectly dry impalpable powder.  The author of this
+little work is now experimenting, in order, if possible,
+to discover some more easy, artistic and unexceptionable method.
+If successful, the result will be published in a future edition.
+
+The rules we shall give for coloring Daguerreotypes depends,
+and are founded, upon those observed in miniature painting,
+and are intended more as hints to Daguerrean artists, in hopes
+of leading them to attempt improvements, than as instructions
+wholly to be observed.
+
+The writer is confident that some compound or ingredient may
+yet be discovered which, when mixed with the colors, will give
+a more delicate, pleasing, and natural appearance to the picture
+than is derived from the present mode of laying them on,
+which in his estimation is more like plastering than coloring.
+
+IN COLORING DAGUERREOTYPES, the principal shades of the head
+are to be made with bistre, mixed with burnt sienna,
+touching some places with a mixture of carmine and indigo.
+The flesh tints are produced by the use of light red,
+deepened towards the shaded parts with yellow ochre,
+blue and carmine mixed with indigo, while the warmer, or more
+highly colored parts have a slight excess of carmine or lake.
+Color the shades about the mouth and neck with yellow ochre,
+blue, and a very little carmine, heightening the color
+of the lips with carmine and light red, letting the light red
+predominate on the upper, and the carmine on the lower lip;
+the shades in the corner of the mouth being touched slightly
+with burnt sienna, mixed with carmine.
+
+In coloring the eyes, the artist will of course be guided by nature,
+observing a very delicate touch in laying on the colors, so as to
+preserve as much transparency as possible.  A slight touch of blue--
+ultramarine would be best if it would adhere to the Daguerreotype plate--
+in the whites of the eye near the iris, will produce a good effect.
+
+In coloring the heads of men it will be necessary to use the darker
+tints with more freedom, according to the complexion of the sitter.
+For women, the warmer tints should predominate, and in order
+to give that transparency so universal with the softer sex--
+and which gives so much loveliness and beauty to the face--
+a little white may be judiciously intermingled with the red tints
+about the lighter portions of the face.
+
+In taking a picture of a lady with light or auburn hair,
+by the Daguerrean process, much of the beauty of the face
+is destroyed, on account of the imperfect manner in which light
+conveys the image of light objects to the spectrum of the camera.
+This may be obviated in some measure by proper coloring.
+To do this, touch the shaded parts with burnt sienna and bistre,
+filling up the lighter portions with yellow ochre, delicate
+touches of burnt sienna, and in those parts which naturally
+have a bluish tint, add very delicate touches of purple--
+so delicate in fact as hardly to be perceived.  The roots
+of the hair at the forehead should also be touched with blue,
+and the eyebrows near the temples made of a pinkish tint.
+
+The chin of a woman is nearly of the same color as the cheeks in
+the most glowing parts.  In men it is stronger, and of a bluish tint,
+in order to produce the effect given by the beard.
+
+In portraits of women--the middle tints on the side of the light,
+which are perceived on the bosom and arms, are made of a slight
+mixture of ochre, blue and lake, (or carmine), to which add, on the
+shaded sides, ochre, bistre and purple, the latter in the darker parts.
+The tints of the hands should be the same as the other parts of the flesh,
+the ends of the fingers being a little pinkish and the nails of a violet hue.
+If any portion of the fleshy parts is shaded by portions of the dress,
+or by the position of the hand, this shade should be colored with umber
+mixed with purple.
+
+TO COLOR THE DRAPERY.--Violet Velvet--Use purple made of Prussian
+blue and carmine, touching up the shaded parts with indigo blue.
+
+Green Velvet--Mix Prussian blue and red-orpiment, shade with purple,
+and touch up the lights with a little white.
+
+Red Velvet--Mix a very little brown with carmine, shading with purple,
+marking the lights in the strongest parts with pure carmine, and touch
+the most brilliant slightly with white.
+
+White Feathers--May be improved by delicately touching
+the shaded parts with a little blue mixed with white.
+White muslin, linen, lace, satin, silk, etc., may also be
+colored in the same way, being careful not to lay the color
+on too heavily.
+
+FURS--Red Furs may be imitated by using light red and a little masticot,
+shaded with umber.  Gray Furs--black and white mixed and shaded with bistre.
+Sable--white shaded lightly with yellow ochre.
+
+These few directions are quite sufficient for the art, and it
+is quite unnecessary for me to pursue the subject further.
+I would, however, remark that the Daguerreotypists would
+find it greatly to their advantage to visit the studies
+of our best artists, our public galleries of paintings,
+and statuary, and wherever else they can obtain a sight
+of fine paintings, and study the various styles of coloring,
+atitudes, folds of drapery and other points of the art.
+In coloring Daguerreotypes, artists will find the magnifying
+glass of much advantage in detecting any imperfections in
+the plate or in the image, which may be remedied by the brush.
+In selecting brushes choose those most susceptible of a fine point,
+which may be escertained by wetting them between the lips,
+or in a glass of water.
+
+
+
+CHAP. XIII.
+
+THE PHOTOGRAPHOMETER.
+
+
+The last number (for March, 1849) of the "London Art-Journal, gives the
+following description of a recent improvement in Photographic Manipulation,
+and as I am desirous of furnishing everything new in the art, I stop
+the press to add it, entire, to my work.
+
+"Since the photographic power of the solar rays bears no direct relation
+to their luminous influence, it becomes a question of considerable
+importance to those who practice the beautiful art of photography,
+to have the means of readily measuring the ever changing activity
+of this force.  Several plans more or less successful, have been
+devised by Sir John Herschel, Messrs. Jordan, Shaw and Hunt.
+The instrument, however, which is now brought forward by Mr. Claudet,
+who is well known as one of our most successful Daguerreotypists,
+appears admirably suited to all those purposes which the practical
+man requires.  The great difficulty which continually annoys
+the photographic amateur and artist, is the determination of
+the sensibility of each tablet employed, relatively to the amount
+of radiation, luminous and chemical, with which he is working.
+With the photographometer of Mr. Claudet this is easily ascertained.
+The following woodcuts and concise description will sufficiently
+indicate this useful and simple apparatus.
+ [hipho_30.gif]
+
+"For an instrument of this kind it is important in the first
+place to have a motion always uniform, without complicated
+or expensive mechanism.  This is obtained by means founded upon
+the principle of the fall of bodies sliding down an inclined plane.
+The sensitive surface is exposed to the light by the rapid and
+uniform passage of a metal plate, A, B, (Fig. 31,) having openings
+of different length, which follow a geometric progression.
+It is evident that the exposure to light will be the same for
+each experiment, because the plate furnished with the proportional
+openings falls always with the same rapidity, the height of the fall
+being constant, and the angle of the inclined plane the same.
+Each opening of this moveable plate allows the light to pass
+during the same space of time, and the effect upon the sensitive
+surface indicates exactly the intensity of the chemical rays.
+The rapidity of the fall may be augmented or diminished by altering
+the inclination of the plane by means of a graduated arc, C, D,
+(Fig. 30,) furnished with a screw, E, by which it may be fixed
+at any angle.  The same result may be obtained by modifying
+the height of the fall or the weight of the moveable plate.
+The photogenic surface, whether
+ [hipho_31.gif]
+it be the Daguerreotype plate, the Talbotype paper, or any other preparation
+sensitive to light, is placed near the bottom of the inclined plane,
+F. It is covered by a thin plate of metal, pierced with circular holes,
+which correspond to the openings of the moveable plate at the moment
+of the passage of the latter, during which the sensitive surface receives
+the light wherever the circular holes leave it exposed.
+
+"The part of the apparatus which contains the sensitive surface is
+an independent frame, and it slides from a dark box into an opening
+on the side of the inclined plane.
+
+"A covering of black cloth impermeable to light is, attached to
+the sides of the moveable plate, enveloping the whole inclined plane,
+rolling freely over two rollers, R, R, placed the one at
+the upper and the other at the lower part of the inclined plane.
+This cloth prevents the light striking the sensitive surface
+before and after the passage of the moveable plate.
+
+"It will be seen that this apparatus enables the experimentalist
+to ascertain with great precision the exact length of time
+which is required to produce a given amount of actinic change upon
+any sensitive photographic surface, whether on metal or paper.
+Although at present some calculation is necessary to determine
+the difference between the time which is necessary for exposure
+in direct radiation, and to the action of the secondary radiations
+of the camera obscura; this is, however, a very simple matter,
+and it appears to us exceedingly easy to adapt an instrument
+of this description to the camera itself.
+
+"By this instrument Mr. Claudet has already determined many
+very important points.  Among others, he has proved that on
+the most sensitive Daguerreotype plate an exposure of .0001
+part of a second is sufficient to produce a decided effect.
+
+"Regarding photography as an auxiliary aid to the artist
+of no mean value, we are pleased to record a description
+of an instrument which, without being complicated, promises to
+be exceedingly useful.  In this opinion we are not singular;
+at a recent meeting of the Photographic Club, to which this
+instrument was exhibited, it was with much real satisfaction
+that we learned that several of our most eminent artists
+were now eager and most successful students in Photography.
+The beautiful productions of the more prominent members of this
+club excited the admiration of all, particularly the copies of
+architectural beauties, and small bits of landscape, by Messrs.
+Cundell and Owen.  We think that now the artist sees the advantage
+he may derive from the aid of science, that both will gain
+by the union."
+
+I hope the above description will induce our townsman, Mr. Roach,
+to successfully produce an instrument that will meet the wants
+of our artists in that part of the Daguerrean process referred to.
+
+FINIS.
+
+
+
+
+
+INDEX.
+
+
+
+
+ Accelerating Liquids.  65
+ Amphitype.  116
+ Anthotype.  113
+ Apparatus. Daguerreotype.  43
+    Calotype  97
+    Photogenic  87
+ Application of Photogenic Drawing.  95
+ Applying the Sensitive.  64
+ Bringing out the Picture.  71
+ Bromine Box.  51
+    Chloride of  68
+    Roach's Tripple Compound of  67
+    water.  65
+ Bromide of Iodine.  67
+    of Lime.  68
+    Paper.  91
+    of silver.  35
+ Brushes.  88
+ Buff Sticks.  60
+ Calotype process.  97
+    paper. Exposure in Camera of  100
+    Pictures. Bringing out  ib.
+       Fixing  101
+ Camera. Description of the  43
+    Stand.  49
+    Woodbridge's  ib.
+    Calotype.  50
+    Voigtlander  45
+ Chloride of Bromine.  68
+    of Gold.  36
+       to make a solution of  75
+    of Iodine.  66
+    of Silver.  31
+ Chromatype.  112
+ Chrysotype.  106
+ Cleaning and Polishing the plate.  61
+ Coating Boxes.  51
+ Color Boxes.  53
+ Colored Daguerreotypes on Copper.  77
+ Coloring the Picture.  76
+    Daguerreotypes.  129
+ Concave Mirrors.  19
+ Convex Mirrors  19
+ Corchorus Japonica.  37
+ Crayon Daguerreotypes.  120
+ Cyanotype  109
+ Daguerreotype Apparatus.  43
+    Process.  61
+    Plates.  62
+ Daguerreotypes. Crayon  77
+    on paper  81
+ Dedication.  iii
+ Definitions of terms used in optics,  15
+ Different methods of preparing photogenic paper.  89
+ Directions for use of Galvanic Battery.  58
+ Distilled water  88
+ Drummond light.  128
+ Dry Sensitive.  68
+ Drying apparatus.  72
+ Effects of light on bodies  25
+ Energiatype  111
+ Etching Daguerreotypes.  83
+ Fifth operation. Fixing the picture.  61
+ First operation. Cleaning the plate  61
+ Fluoric acid.  69
+ Fourth operation-Bringing out the picture.  71
+ Funnels.  53
+ Galvanic Battery.  57
+       Solution for use of  58
+ Gilding stand.  53
+    the picture.  74
+ Gold. Chloride of  36
+       To make solution of  75
+    Hyposulphite; or Salt of  74
+    Preparation of.  36
+ Gurney's Sensitive.  67
+ Head Rests.  57
+ Hints and Suggestions.  39
+ History of Photography.  3
+ Hungarian Liquid.  69
+ Hygrometers.  55
+ Hyposulphite of Gold.  74
+       of Soda.  28
+ Instantaneous pictures by means of Galvanism.  77
+ Introduction.  i
+ Iodine, Dry  64
+    Chloride of  66
+    Bromide of  67
+    Box.  51
+ Iodide of silver.  32
+ loduret of silver.  33
+ Iodize the Plate. To  64
+ Iodized Paper for Calotypes. To prepare  98
+       To prepare for the Camera  ib.
+ Lamps, Spirit  53
+ Light. Theory on  14
+    Motion of  16
+    Reflection of  17
+    Refraction of  20
+    on bodies. Effects of  25
+    Prismatic analysis of  22
+ Lime, Bromide of  68
+ Lunar Pictures.  127
+ Mead's Accelerator.  68
+ Mercury Bath  50
+ Nitrate of Silver.  89
+ Oxide of Silver.  29
+ On coloring Daguerreotypes  129
+ On the probability of Producing colored Photographs.  123
+ Paper. blotting; or bibulous,  88
+    Daguerreotypes.  81
+    preparation of  89
+    suitable for Photographs.  87
+    Photogenic drawing on  ib
+ Photographic principle, the  22
+ Photographic process on paper.  92
+       drawing. Application of  95
+          To fix the  93
+       deviations.  126
+ Photographometer, The  135
+ Plate Support.  59
+    Blocks.  50
+    Vice.  51
+ Poppy, The Red  37
+ Porcelain dishes.  59
+ Positive Calotype  104
+ Preface.  v
+ Preparation of Iodized Paper.  98
+       of Gold.  36
+ Prismatic Spectrum.  22
+       Analysis of Light.  ib
+ Reflection of Light.  17
+ Refraction of Light.  20
+ Roach's Tripple Compound of Bromine.  67
+ Sand Clock.  70
+ Sealing paper. To make  77
+ Second operation.  94
+ Sensitive.  ib
+ Silver. Bromide of  35
+    Cloride of  31
+    Iodide of  32
+    Ioduret of  33
+    Nitrate of  89
+    Oxide of  28
+    Solution of Chloride of  59
+ Sixth operation.  74
+ Soda Hyposulphite of  72
+ Solar and Stellar Light.  21
+ Still for purifying water,  54
+ Submitting the Plate to the action of Light  69
+ Synopsis of Mr. Hunt's Treatise on Light,  29
+ Talbotype Camera.  50
+ Theory on Light.  14
+ Third operation.  69
+ Wall Flower.  37
+
+
+
+End of the Project Gutenberg Etext of The History and Practice
+of the Art of Photography
+
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