''Photometria'' is a book on the measurement of light by

Johann Heinrich Lambert Johann Heinrich Lambert (; ; 26 or 28 August 1728 – 25 September 1777) was a polymath from the Republic of Mulhouse, at that time allied to the Switzerland, Swiss Confederacy, who made important contributions to the subjects of mathematics, phys ...

published in 1760.Lambert, Johann Heinrich,
Photometria, sive de mensura et gradibus luminis, colorum et umbrae
', Augsburg: Eberhard Klett, 1760. It established a complete system of photometric quantities and principles; using them to measure the optical properties of materials, quantify aspects of vision, and calculate illumination.

Content of ''Photometria''

Written in

Latin Latin ( or ) is a classical language belonging to the Italic languages, Italic branch of the Indo-European languages. Latin was originally spoken by the Latins (Italic tribe), Latins in Latium (now known as Lazio), the lower Tiber area aroun ...

, the title of the book is a word Lambert devised from (transliterated ''phôs'', ''photos'') = light, and (transliterated ''metria'') = measure. Lambert’s word has found its way into European languages as ''

photometry Photometry can refer to: * Photometry (optics), the science of measurement of visible light in terms of its perceived brightness to human vision * Photometry (astronomy), the measurement of the flux or intensity of an astronomical object's electr ...

'', ', and '. ''Photometria'' was the first work to accurately identify most fundamental photometric concepts, assemble them into a coherent system of photometric quantities, define these quantities with a precision sufficient for mathematical statements, and build from them a system of photometric principles. These concepts, quantities, and principles are still in use today. Lambert began with two simple axioms: light travels in a straight line in a uniform medium and rays that cross do not interact. Like Kepler before him, he recognized that "laws" of photometry are simply consequences and follow directly from these two assumptions.Mach, E., ''The Principles of Physical Optics: An Historical and Philosophical Treatment'', trans. J.S. Anderson and A.F.A. Young, Dutton, New York, 1926. In this way ''Photometria'' demonstrated (rather than assumed) that # Illuminance varies inversely as the square of the distance from a point source of light, # Illuminance on a surface varies as the cosine of the incidence angle measured from the surface perpendicular, and # Light decays exponentially in an absorbing medium. In addition, Lambert postulated a surface that emits light (either as a source or by reflection) in a way such that the density of emitted light (

luminous intensity In photometry, luminous intensity is a measure of the wavelength-weighted power emitted by a light source in a particular direction per unit solid angle, based on the luminosity function, a standardized model of the sensitivity of the huma ...

) varies as the cosine of the angle measured from the surface perpendicular. In the case of a reflecting surface, this form of emission is assumed to be the case, regardless of the light's incident direction. Such surfaces are now referred to as "Perfectly Diffuse" or "Lambertian". See:

Lambertian reflectance Lambertian reflectance is the property that defines an ideal "matte" or diffusely reflecting surface. The apparent brightness of a Lambertian surface to an observer is the same regardless of the observer's angle of view. More precisely, the ref ...

, Lambertian emitter. Lambert demonstrated these principles in the only way available at the time: by contriving often ingenious optical arrangements that could make two immediately adjacent luminous fields appear ''equally bright'' (something that could only be determined by visual observation) when two physical quantities that produced the two fields were ''unequal'' by some specific amount (things that could be directly measured, such as angle or distance). In this way, Lambert quantified purely visual properties (such as luminous power, illumination, transparency, reflectivity) by relating them to physical parameters (such as distance, angle, radiant power, and color). Today, this is known as "visual photometry." Lambert was among the first to accompany experimental measurements with estimates of uncertainties based on a theory of errors and what he experimentally determined as the limits of visual assessment.Sheynin, O.B., “J.H. Lambert’s work on probability,” Archive for History of Exact Sciences, vol. 7, 1971, pp. 244–256. Although previous workersGal, O. and Chen-Morris, R., "The Archaeology of the Inverse Square Law", ''History Science'', Vol 43, Dec. 2005 pp. 391–414.Ariotti, P.E. and Marcolongo, F.J., "The Law of Illumination before Bouguer (1720)", ''Annals of Science'', Vol. 33, No.4, pp 331–340. had pronounced photometric laws 1 and 3, Lambert established the second and added the concept of perfectly diffuse surfaces. But more importantly, as Anding pointed out in his German translation of ''Photometria'', "Lambert had incomparably clearer ideas about photometry"Anding, E., ''Lambert’s Photometrie'', No. 31, 32, 33 of '' Ostwalds Klassiker der exakten Wissenschaften'', Engelmann, Leipzig, 1892. and with them established a complete system of photometric quantities. Based on the three laws of photometry and the supposition of perfectly diffuse surfaces, ''Photometria'' developed and demonstrated the following: :1. Just noticeable differences ::In the first section of ''Photometria'', Lambert established and demonstrated the laws of photometry. He did this with visual photometry and to establish the uncertainties involved, described its approximate limits by determining how small a brightness difference the

visual system The visual system is the physiological basis of visual perception (the ability to perception, detect and process light). The system detects, phototransduction, transduces and interprets information concerning light within the visible range to ...

could determine. :2. Reflectance and transmittance of glass and other common materials ::Using visual photometry, Lambert presented the results of many experimental determinations of specular and diffuse reflectance, as well as the transmittance of panes of glass and lenses. Among the most ingenious experiments he conducted was to determine the reflectance of the ''interior'' surface of a pane of glass. :3. Luminous radiative transfer between surfaces ::Assuming diffuse surfaces and the three laws of photometry, Lambert used Calculus to find the transfer of light between surfaces of various sizes, shapes, and orientations. He originated the concept of the per-unit transfer of flux between surfaces and in ''Photometria'' showed the closed form for many double, triple, and quadruple integrals which gave the equations for many different geometric arrangements of surfaces. Today, these fundamental quantities are called

View Factor Acornsoft was the software arm of Acorn Computers, and a major publisher of software for the BBC Micro and Acorn Electron. As well as games, it also produced a large number of educational titles, extra computer languages and business and ut ...

s, Shape Factors, or Configuration Factors and are used in

radiative heat transfer Thermal radiation is electromagnetic radiation emitted by the thermal motion of particles in matter. All matter with a temperature greater than absolute zero emits thermal radiation. The emission of energy arises from a combination of electro ...

and in

computer graphics Computer graphics deals with generating images and art with the aid of computers. Computer graphics is a core technology in digital photography, film, video games, digital art, cell phone and computer displays, and many specialized applications. ...

. :4. Brightness and pupil size ::Lambert measured his own pupil diameter by viewing it in a mirror. He measured the change in diameter as he viewed a larger or smaller part of a candle flame. This is the first known attempt to quantify

pupillary light reflex The pupillary light reflex (PLR) or photopupillary reflex is a reflex that controls the diameter of the pupil, in response to the intensity ( luminance) of light that falls on the retinal ganglion cells of the retina in the back of the eye, t ...

. :5.

Atmospheric refraction Atmospheric refraction is the deviation of light or other electromagnetic wave from a straight line as it passes through the atmosphere due to the variation in air density as a function of height. This refraction is due to the velocity of light ...

and absorption ::Using the laws of photometry and a great deal of geometry, Lambert calculated the times and depths of twilight. :6. Astronomic photometry ::Assuming that the planets had diffusely reflective surfaces, Lambert attempted to determine the amount of their reflectance, given their relative brightness and known distance from the sun. A century later, Zöllner studied ''Photometria'' and picked up where Lambert left off, and initiated the field of astrophysics.Zöllner, J.C.F., Photometrische Untersuchungen mit Besonderer Rücksicht auf die Physische Beschaffenheit der Himmelskörper, Leipzig, 1865. :7. Demonstration of additive color mixing and colorimetry ::Lambert was the first to record the results of additive color mixing.Rood O.N., ''Modern Chromatics'', Appleton, New York, 1879, pp. 109–139. By simultaneous transmission and reflection from a pane of glass, he superimposed the images of two different colored patches of paper and noted the resulting additive color. :8. Daylighting calculations ::Assuming the sky was a luminous dome, Lambert calculated the illumination by skylight through a window, and the light occluded and interreflected by walls and partitions.

Nature of ''Photometria''

Lambert's book is fundamentally experimental. The forty experiments described in ''Photometria'' were conducted by Lambert between 1755 and 1760, after he decided to write a treatise on light measurement. His interest in acquiring experimental data spanned several fields: optics, thermometry, pyrometry, hydrometry, and magnetics. This interest in experimental data and its analysis, so evident in ''Photometria'', is also present in other articles and books Lambert produced.Lambert, J.H., ''Pyrometrie oder vom Maaße des Feuers und der Wärme'', Berlin, 1779. For his optics work, extremely limited equipment sufficed: a few panes of glass, convex and concave lenses, mirrors, prisms, paper and cardboard, pigments, candles, and the means to measure distances and angles. Lambert's book is also mathematical. Though he knew that the physical nature of light was unknown (it would be 150 years before the wave-particle duality was established) he was certain that light's interaction with materials and its effect on vision could be quantified. Mathematics was for Lambert not only indispensable for this quantification but also the indisputable sign of rigor. He used linear algebra and calculus extensively with matter-of-fact confidence that was uncommon in optical works of the time.Buchwald, J. Z., ''The Rise of the Wave Theory of Light'', Chicago, 1989, p. 3 On this basis, Photometria is certainly uncharacteristic of mid-18th century works.

Writing and publishing of ''Photometria''

Lambert began conducting photometric experiments in 1755 and by August 1757 had enough material to begin writing.Bopp, K., “Johann Heinrich Lamberts Monatsbuch,” Abhandlungen der Königlich Bayerischen Akademie der Wissenshaften, Mathematisch-physikalische Klasse, XXVII. Band 6. Munich, 1916. From the references in ''Photometria'' and the catalogue of his library auctioned after his death, it is clear that Lambert consulted the optical works of

Isaac Newton Sir Isaac Newton () was an English polymath active as a mathematician, physicist, astronomer, alchemist, theologian, and author. Newton was a key figure in the Scientific Revolution and the Age of Enlightenment, Enlightenment that followed ...

Pierre Bouguer Pierre Bouguer () (16 February 1698, Le Croisic – 15 August 1758, Paris) was a French mathematician, geophysicist, geodesist, and astronomer. He is also known as "the father of naval architecture". Career Bouguer's father, Jean Bouguer, ...

Leonhard Euler Leonhard Euler ( ; ; ; 15 April 170718 September 1783) was a Swiss polymath who was active as a mathematician, physicist, astronomer, logician, geographer, and engineer. He founded the studies of graph theory and topology and made influential ...

Christiaan Huygens Christiaan Huygens, Halen, Lord of Zeelhem, ( , ; ; also spelled Huyghens; ; 14 April 1629 – 8 July 1695) was a Dutch mathematician, physicist, engineer, astronomer, and inventor who is regarded as a key figure in the Scientific Revolution ...

, Robert Smith, and Abraham Gotthelf Kästner.Verzeichniß der Bücher und Instrumente, welche der verstorbene Königl. Ober-Baurath und Professor Herr Heinrich Lambert hinterlassen hat, und die den Meistbiethenden sollen verkauft werden. Berlin, 1778
He finished ''Photometria'' in Augsburg in February 1760 and the printer had the book available by June 1760. Maria Jakobina Klett (1709–1795) was the owner of Eberhard Klett Verlag, one of the most important Augsburg “Protestant publishers.” She published many technical books, including Lambert’s ''Photometria'', and 10 of his other works. Klett used Christoph Peter Detleffsen (1731–1774) to print ''Photometria''. Its first and only printing was small, and within 10 years copies were difficult to obtain. In

Joseph Priestley Joseph Priestley (; 24 March 1733 – 6 February 1804) was an English chemist, Unitarian, Natural philosophy, natural philosopher, English Separatist, separatist theologian, Linguist, grammarian, multi-subject educator and Classical libera ...

's survey of optics of 1772, “Lambert’s Photometrie” appears in the list of books not yet procured. Priestley makes a specific reference to ''Photometria''; that it was an important book but unprocurable.Priestly, J., ''The History and Present State of Discoveries relating to Vision, Light, and Colours'', London, 1772 An abridged German translation of ''Photometria'' appeared in 1892, a French translation in 1997,Boye, J., J. Couty, and M. Saillard, ''Photométrie ou de la Mesure et de la Gradation de la lumière, des couleurs et de l’Ombre'', L’Harmattan, Paris, 1997. and an English translation in 2000. DiLaura, D.L., ''Photometry, or, On the measure and gradations of light, colors, and shade'', Translated from the Latin by David L. DiLaura. New York, Illuminating Engineering Society, 2001.

Later influence

''Photometria'' presented significant advances and it was, perhaps, for that very reason that its appearance was greeted with general indifference. The central optical question in the middle of the 18th century was: what is the nature of light? Lambert's work was not related to this issue at all and so ''Photometria'' received no immediate systematic evaluation, and was not incorporated into the mainstream of optical science. The first appraisal of ''Photometria'' appeared in 1776 in Georg Simon Klügel’s German translation of Priestley’s 1772 survey of optics.Klügel, G. S., ''Geschichte und gegenwärtiger zustand der Optik nach der Englischen Priestelys bearbeitet'', Leipsig, 1776, pp. 312–327. An elaborate reworking and annotation appeared in 1777.Karsten, W.J.G., Lehrbegrif der gesamten Mathematic; Der Achte Theil, Die Photometrie, Greifswald, 1777. ''Photometria'' was not seriously evaluated and utilized until nearly a century after its publication, when the science of

astronomy Astronomy is a natural science that studies celestial objects and the phenomena that occur in the cosmos. It uses mathematics, physics, and chemistry in order to explain their origin and their overall evolution. Objects of interest includ ...

and the commerce of

gas lighting Gas lighting is the production of artificial light from combustion of a fuel gas such as methane, propane, butane, acetylene, ethylene, hydrogen, carbon monoxide, coal gas (town gas) or natural gas. The light is produced either directly by ...

needed photometry.DiLaura, D.L., “Light’s Measure: A History of Industrial Photometry to 1909,” ''LEUKOS'', Jan 2005, Vol 1, No. 3, pp. 75–149. Fifty years after that, Illuminating Engineering took up Lambert's results as the basis for lighting calculations that accompanied the great expanse of lighting early in the 20th century.Yamauti, Z., “Further study of Geometrical Calculation of Illumination due to Light from Luminous Surface Sources of Simple Form,” ''Researches of the Electrotechnical Laboratory'', no., 194, Tokyo, 1927, n. 1, p. 3. Fifty years after that,

took up Lambert's results as the basis for radiosity calculations required to produce architectural renderings. ''Photometria'' had a significant, though long-delayed influence on technology and commerce once the

Industrial Revolution The Industrial Revolution, sometimes divided into the First Industrial Revolution and Second Industrial Revolution, was a transitional period of the global economy toward more widespread, efficient and stable manufacturing processes, succee ...

was well underway, and is the reason that it was one of the books listed in '' Printing and the Mind of Man''.

References

External links