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STUDY PLANS

Optical basis of Photography 1

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Course unit code:
307ETR1
Course unit title:
Optical basis of Photography 1
Mode of delivery:
zápočet
Range:
13/S
Type of course unit:
compulsory subject
Level of course unit:
Year of study
1st year
Semester when the course unit is delivered
zimní
Number of ECTS credits allocated:
1
Garant předmětu:
Martin STECKER, Vladan KRUMPL
Name of lecturer(s):
Martin STECKER, Vladan KRUMPL
Study Objectives:

The aim of this subject is to try and verify in practice theoretical knowledge acquired in subjects such as the Physical and Chemical Fundamentals of Photography by solving concrete tasks. Students will also learn how to use the technical equipment of the Photography Department, including methods of comparing images processed using analogue and digital technologies.

Mode of delivery:

Evaluation

WS - a graded credit will be given on the basis of a test from theoretical knowledge and evaluation of the work presented by the student, the teacher will assess exact compliance with the assignment and the quality of processing

SS - an exam: test and evaluation of the work presented by the student, the teacher will assess exact compliance with the assignment and the quality processing

Participation: the students will not be graded unless they have at least 80% attendance in the course.

Prerequisites and co-requisites:

None

Recommended optional programme components
Course contents:

Description of the subject, assignments: (assignment 1P1)

1.Daylight and studio light, different kinds of light, basic principles, possibilities of changing the light character and mastering the light. Advantages of particular systems.

2.Rudiments of exponometry, fotometrical units, different types of measuring instruments - advantages and ways of measuring and controlling, luminance range of the scene, exponometrical tools, zonal system.

3.Basic kinds of cameras, their construction, advantages and use.

Practical assignment: work with Sinar camera - making 1 print under glass with grey and colour model - demonstration of transferring colours into black and white spectrum, deciding on the right exposure, and demonstration of ways of developing 6x9 cm. (1 enlargement 24x30cm)

4.Theory of displaying, lens´ construction and defects, resolution.

Practical assignment: Extreme limits of school lenses, visual field, basic tests of resolution, 1 photograph of the surface structure of a subject with practical use of Scheimpflug?s condition of developing the film 9x12cm. (1 enlargement 30x40cm)

5.Perspective and focal length, equalization of perpendiculars - restitution, deciding on light range of the scene in a studio.

Practical assignment: making 2 compositions of geometrical subjects with different lighting and perspective, using restitution in one picture. (2 enlargements 30x40cm)

6.Work with Sinar camera and with digital Sinarback 54H, digital cameras, possibilities of use, comparing of results from analogue and digital photography in static and live photography

Practical assignment: following assignments will always a confrontation of both technologies following the assignment Work with computers and digital imaging.

7.Technical rudiments of photographing glass, possibilities of lighting, used material

2 photographs 30x40 on both light and dark background + digital record, print.

8.Technical rudiments of photographing metallic objects

1 photograph 30x40 + digital record, print.

9.Technical rudiments of photographing ceramics

2 photographs 30x40 on both light and dark background + digital record, print.

Attention !!! Particular photographs must be presented according to the schedule, not at the end of the semester!

1.Fundamental properties of light

What is light, waves and theirs properties, numbers associated with periodic

waves, electromagnetic radiation, speed of light.

2.Principles of geometrical optics

Reflection, total internal reflection, refraction, dispersion.

3.Mirrors and lenses

Spherical mirrors, spherical and aspherical lenses, aberrations.

4.Wave optics

Interference, diffraction, limit resolution by diffraction, polarization, three

dimensional images.

5.The camera and photography

Depth of field, focal length, camera lenses, device to control light, exposure.

6.The human eye and vision

Focusing and accommodation, the iris, the lens, the retina, sensitivity,

aberrations, elementary lightness perception, binocular vision, three

dimensions, two dimensions.

7.Color

Spectral color, color mixing by addition and subtraction, trichromacy of color

vision, source of colors, color temperature.

8.Computer images

Bits, bytes, resolution, CCD, CMOS, the imaging process, graphic displays,

optical storage, optical scanners, holographic memories, the future of photonics.

9.Light in modern physic

Particles and waves, atomic spectra, stimulated emission, laser, LED, OLED.

Study materials:

Recommended literature

David Falk, Dieter Brill, David Stork: Seeing the Light, 1986 by John Wiley and Sons. Inc.

Thomas D.Rossing, Christopher J. Chiaverina: Light Science, 1999 Springer-Verlag New York, Inc.

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)

www.wikipedia.org

Planned learning activities and teaching methods
Assessment methods and criteria

Evaluation

WS - a graded credit will be given on the basis of a test from theoretical knowledge and evaluation of the work presented by the student, the teacher will assess exact compliance with the assignment and the quality of processing

SS - an exam: test and evaluation of the work presented by the student, the teacher will assess exact compliance with the assignment and the quality processing

Participation: the students will not be graded unless they have at least 80% attendance in the course.

Language of instruction:
English
Work placement(s):
Pracovní stáž není u tohoto předmětu zavedena.
Course web page:
Note:
Schedule for winter semester 2010/2011:
06:00–08:0008:00–10:0010:00–12:0012:00–14:0014:00–16:0016:00–18:0018:00–20:0020:00–22:0022:00–24:00
Mon
Tue
místnost 114
Atelér B KF

(Lažanský palác)
KRUMPL V.
14:50–16:25
ODD WEEK

(přednášková par. 1)
Fri
Thu
místnost 114
Atelér B KF

(Lažanský palác)
STECKER M.
18:10–19:45
EVEN WEEK

(paralelka 1)
Fri
Schedule for summer semester 2010/2011:
The schedule has not yet been prepared
The subject is a part of the following study plans:
Generated on 2011-6-17
Updates of the above given information can be found on http://studijniplany.amu.cz/en/predmet307ETR1.html