Basic Photography Course

Figure 1-14.-The position of the discharge tube in relation to the reflector.

different distances from the subject. Generally, they are
designed to provide maximum efficiency at distances of

from 6 to 12 feet from the subject. Professional type of

electronic flash units may have a dual reflector
system-one position for a normal angle and the other for
a wide angle (for a wide-angle lens); others may have a

zoom system to provide optimum light distribution for
any lens within a wide range of focal lengths. Depending
on the position of the discharge tube in relation to the
reflector, the unit can be used as a spotlight or floodlight
(fig. 1-14).

PLANE REFLECTORS.

When you want to

provide fill-in light for shadow areas, it is often desirable
to substitute a plane reflector (sometimes called a
reflector board) to redirect the light from a direct light
source (fig. 1-15). The plane reflector is placed so it
receives light from the primary light source and reflects
the light into the shadows. The efficiency of such a
reflector depends on its surface and tone, as well as size
and distance from the subject being photographed. The
subject area covered by a plane reflector depends on the
size of the reflector. When the surface of the reflector is
matte or textured, it reflects diffused light and some of
the reflected light is dispersed over a wide angle.

OPTICAL PRINCIPLES

Cameras have optical systems, or lenses, made up

of several separate pieces of glass, called elements.
There are two reasons for having several elements. First,
it allows the designer to make many different types of
lenses to suit different purposes. Second, the quality of
the image formed by the lens can be controlled by
choosing different lens elements. The most important
choices the lens designer makes are the shape and
position of each lens element. These govern properties
like focal length, angle of view, physical weight, and
size.

Lenses are probably the least understood but the

most discussed component of the photographic process.

Photographers (generally amateurs) speak of a lens

formula as if they knew what it was about. Even if the

designer's formula were made available, it would not
provide information about the lens photographic quality.
A perfect lens cannot be made. A lens is a compromise
of inherent errors called aberrations, but do not let this
worry you. Lens aberrations are defects in the formation
of an optical image. Today's lenses are so highly
corrected for lens aberrations that, except for a few ultra
wide-angle (fisheye) lenses, you would be hard pressed
to find a lens that produces subjectively identifiable

1-10

contents

Basic Photography Course

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DOFMaster for Windows On-line Depth of Field Calculator DOFMaster for Mobile Devices On-line Depth of Field Table Hyperfocal Distance Chart Articles FAQ Recommended Books Support Contact Links Home As an Amazon Associate I earn from qualifying purchases.	contents <- previous page next page -> Figure 1-14.-The position of the discharge tube in relation to the reflector. different distances from the subject. Generally, they are designed to provide maximum efficiency at distances of from 6 to 12 feet from the subject. Professional type of electronic flash units may have a dual reflector system-one position for a normal angle and the other for a wide angle (for a wide-angle lens); others may have a zoom system to provide optimum light distribution for any lens within a wide range of focal lengths. Depending on the position of the discharge tube in relation to the reflector, the unit can be used as a spotlight or floodlight (fig. 1-14). PLANE REFLECTORS. When you want to provide fill-in light for shadow areas, it is often desirable to substitute a plane reflector (sometimes called a reflector board) to redirect the light from a direct light source (fig. 1-15). The plane reflector is placed so it receives light from the primary light source and reflects the light into the shadows. The efficiency of such a reflector depends on its surface and tone, as well as size and distance from the subject being photographed. The subject area covered by a plane reflector depends on the size of the reflector. When the surface of the reflector is matte or textured, it reflects diffused light and some of the reflected light is dispersed over a wide angle. OPTICAL PRINCIPLES Cameras have optical systems, or lenses, made up of several separate pieces of glass, called elements. There are two reasons for having several elements. First, it allows the designer to make many different types of lenses to suit different purposes. Second, the quality of the image formed by the lens can be controlled by choosing different lens elements. The most important choices the lens designer makes are the shape and position of each lens element. These govern properties like focal length, angle of view, physical weight, and size. Lenses are probably the least understood but the most discussed component of the photographic process. Photographers (generally amateurs) speak of a lens formula as if they knew what it was about. Even if the designer's formula were made available, it would not provide information about the lens photographic quality. A perfect lens cannot be made. A lens is a compromise of inherent errors called aberrations, but do not let this worry you. Lens aberrations are defects in the formation of an optical image. Today's lenses are so highly corrected for lens aberrations that, except for a few ultra wide-angle (fisheye) lenses, you would be hard pressed to find a lens that produces subjectively identifiable 1-10 contents Basic Photography Course <- previous page next page ->	As an Amazon Associate I earn from qualifying purchases.
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