Theory of Photographic Picture 1

Display Schedule

Subject guarantor

Josef PECÁK

Name of lecturer(s)

Josef PECÁK

Learning outcomes of the course unit

Introduce students to the theory basics of photographic imaging.

Mode of study

Lectures are supplemented with samples and extensive image material.

Prerequisites and co-requisites

Intended for Bachelor study students.

Course contents

Curriculum:

1. Light and radiation

Energy radiation propagation, the electromagnetic spectrum, the physical fundamentals of radiation, light and radiation, psycho-physical character of light and the concepts of light, whole body radiation, heat emission laws: the Stefan-Boltzman Law, Krichhoff's Law, Wien's Law, Planck's Law.

color temperature, measurement of Tc.expressing Tc in Kelvin and Mired, B/W and color photography filters. Radiation sources - natural and artificial /the sun, sky, moon; incandescent and fluorescent, discharge, LED sources /

1. Radiometry and photometry

light emission effectiveness, radiometric and photometric dimensions and units, luminous intensity, brightness, exposure, exposition. Photometric laws - The inverse square law of light. Cosine law. Passive photometric concepts - the light characteristics of an object. Reflection, absorption. Mirror reflection, dispersion,, reflection and absorption indexes, optical density. Fundamentals of photometric measurement - photometric equipment.

1. The radiation perception process

physiology of vision - eye structure, composition and significance of the retina, the visual nerve bundle, the vision center of the brain; the generation of an optical image in the eye, the binocular field of vision, volatilization of the eye, the mosaic arrangement of the sense of vision, resulting visual sensation. Adapting - fundamental, locational, peripheral, simultaneous and sucsessive contrast. Basic color vision theory - metameric , the exception of yellow, Young-Helmholtz theory, Hering's theory, Spectral sensitivity of photopigments in the eye, color vision defects, The concept of color - color in psychical, physical and psycho-physical areas. Classification of colors - perceptual analysis of color, color attributes, color tone, saturation, brightness, color atlases, /Munsel, Ostwald/, color measurement - Colorimetry. Perception of brightness - range of brightness perception, sensitivity to differences in brightness, The Weber-Fecher Law, visual sensitometer, subjective black, scene contrasts,objective and subjective contrast. Brightness detail - /color detail/, distinguishing details,Foucault's tests, Jewel-Nutting-Siemens star. Recognizing spatial depth - a) direct; based on head movement, viewer movement, binocular vision /stereoparalaxy/ b) indirect: based on line convergence perspective, overlapping objects, space modelling through light and shadow, aerial perspective, person and object size knowledge, lost of detail and movement in a scene, Visual perception characteristics - difference between viewing and perceiving, unequal evaluation of vertical and horizontal dimensions, evaluating the size of near and distant objects, constancy phenomena, the influence of memory, experience and interpretation, brain adaptation, The Bezold - Bruecke phenomenon.

1. Optical photography

Optical glass and its characteristics, Reflection and refraction laws, light, refraction medial index, medial dispersion, relative dispersion, Abbe number, spheric and aspheric elements, optical defects - spherical defects, coma, color defects, astigmatism, distortion, . photographic lens characteristics - focal distance, relative opening, f-number, lens speed, lens types, depth and sharpness, hyper-focal distance, visual and image angle, haze and its measurement, anti-reflective layers, image contrast,resolving power, modulation transfer functions.

Recommended or required reading

Literatura povinná: (včetně signatury knihovny FAMU)

ČSN 36 0000: Světelné technické názvosloví (6A 3999-4000)

ČSN 01 1718: Měření barev (6A 4001)

ČSN 66 6401: Fotografická senzitometrie (6A 3333)

Janoušková K.: Fyziologie zraku (1965 - 6C 958-60, 1970 - 6C 1592-95)

Pecák J.: Subjektivní aspekty reprodukce barevným filmem (kabinet obrazové techniky)

Urban M.: Základy senzitometrie (1968 - 6C 1572-3)

Jahoda M.: Barevná senzitometrie (1968 - 6C 1169) in Sborník prací VÚZORT

Informační zpravodaj VÚZORT -1969, č. 3,4 / Kvalita optických a fotografických obrazů (kabinet obrazové techniky)

Katalogy filmových materiálů: Eastman KODAK, FUJI (kabinet obrazové techniky)

Katalogy filtrů: KODAK Filters (kabinet obrazové techniky)

Kubát J.: Základy fotochemie, Akademia 1969

Šimek J.: skripta Fotografická technika - Základy fotochemie

Junge K.W., Hübner G.: Fotografická chemie (SNTL 1987)

Literatura doporučená :

Evans, R.M.: An Introduction to Color (1948 - 6B 859, 1959 - 6B 757, 1965 - 6B 1214)

Evans, R.M.: Eye, Film and Camera in Color Photography (1959 - 6B 756)

Langford, M.J.: Advanced Photography (1972 - 6B 1350)

sborník Principles of Color Sensitometry (1955 - 6B 865)

Ilinski, M.: Sensytometria fotograficzna i filmowa materialow czarno-bielych (1955 - 6B 420)

Horder, A.: The Manual of Photography,formerly (6B 1281)

Horder, A.: The Ilford Manual of Photography (1971)

Morávek, J.: Senzitometry (1965, in Sborník prací VÚZORT, str. 71 - 6B 1169)

Gorochovskij, J.N., Levenberg, T.M.: General Senzitometry (6B 1471)

Jiráček M.: Fotografická optika (1960 - 6A 2119)

Palivec: Světlo, optika a osvětlovanie vo fotografii (1963 - 6A 2390)

Assessment methods and criteria

Attendance at lectures is a necessary requirement for successfull course study. At the end of the semester the students complet a verification text on which credit is based.

Note

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Schedule for winter semester 2018/2019:

• Week view
• List

Schedule for summer semester 2018/2019:

The schedule has not yet been prepared

The subject is a part of the following study plans

• Cinematography - Bachelor - 1819 (required subject)