Wrapping upPrinciples & Features of LightHow do we see
things?Camera v/s Human Eye.
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NEXT CLASS HOW PHOTOGRAPHY WORKS
Before we begin our discussion on Photography Fundamentals, I
assume that you have taken a photograph at least once in your
lifetime; be it with a basic digital camera, or a conventional film
camera.
But have you ever thought, before or after taking a still
picture that what makes you freeze a moment of time? What is that
basic element with the help of which (leaving apart the technical,
chemical or artistic part of it) you are able to capture a
frame?
Well answer to these questions is close to the concept of human
vision i.e. How humans see thingsBasic Photography | Class 001 |
Photography FundamentalsThe fundamental element behind photography
is LIGHT. Light is the RAW MATERIAL not only of photography, but
the sight of any living creature. After all, you cannot see or
photograph any object without presence of light. Therefore Light is
the Fundamental of Photography.
There are four basic elements/features of light which all occur
at same time. These are:-Light travels in Straight Line (within
common substance of uniform composition) until obstructed. You can
notice this feature in the Light Beams and shafts of sunlight.Light
travels at a great speed (3,00,000 Km/Sec or 186,000 Miles/sec
through vacuum). It is inversely dependent on mediums density.
Therefore the speed of Light is marginally slower in Air and still
slightly slower in denser substances like water and glass)Light
moves like waves; like ripples in water. Different wavelengths
gives us sensation of different colours. Light contains energy
particles called Photons.Basic Photography | Class 001 |
Photography FundamentalsAs we discussed a little earlier, Light
travels in straight until obstructed. This happens only if the
light is travelling throughout within a common substance of uniform
composition. When light strikes surface of another substance, what
happens next depends upon the type of material, its texture &
colour, and the angle and colour content of the light itself.
Broadly three cases are possible when it hits a surface.
Reflection : The reflected ray corresponding to a given incident
ray, is the ray that represents the light reflected by the surface.
The angle between the surface normal and the reflected ray is known
as the angle of reflection. The Law of Reflection says that for a
specular (non-scattering) surface, the angle of reflection always
equals the angle of incidence.
Refraction: The refracted ray or transmitted ray corresponding
to a given incident ray represents the light that is transmitted
through the surface. The angle between this ray and the normal is
known as the angle of refraction,
Absorption: In physics, absorption of electromagnetic radiation
is the process by which the energy of a photon is taken up by
matter, typically the electrons of an atom. Thus, the
electromagnetic energy is transformed to other form of energy, for
example, to heat. The absorption of light during wave propagation
is often called attenuation.Basic Photography | Class 001 |
Photography FundamentalsREFLECTION
When light is reflected, it acts in a certain way. When the
reflecting surface is smooth and polished, the reflection is
orderly, or specular. Specular light is reflected at the same angle
to the surface as the light incident to the surface; that is, the
path of the light reflectedfrom the surfaceforms an angle exactly
equal to the one formed by its path in reaching the surface. Thus
the angle of reflection is equal to the angle of incidence, which
is a characteristic of specular light (view A).
However, when the object surface is not smooth and polished but
irregular, light is reflected irregularly or diffused (view B);
that is, the light is reflected in more than one direction.
Practically all surfaces reflect both specular and diffused light;
smooth surfaces reflect more specular light, and rough surfaces
more diffused light. Since diffused light is more common than
specular light, it is of greatest value in photography. Objects
that are not light sources are visible and therefore
photographicBasic Photography | Class 001 | Photography
FundamentalsREFRACTION The change of direction that occurs when a
ray of light passes from one transparent substance into another
substance of different density is called refraction. Refraction
enables a lens to form an image. Refraction occurs because light
travels at different speeds in different transparent substances.
The speed of light in each transparent substance is called the
index of refraction for that substance; for example, light travels
1.5 times as fast in air as it does in glass, so the index of
refraction for glass is about 1.5.
ABSORPTIONWhen light strikes a medium and is neither reflected
nor transmitted (passed on), it is said to be absorbed. Black
cloth, for instance, absorb more light than objects such as a white
sheet. When light comes in contact with the surface of an object, a
mix of reflection, and some absorption takes place. A medium that
does not allow light to pass through it is opaque. An opaque
material may also reflect light. When an object is opaque and the
light is not reflected, it is absorbed by the object. When light is
absorbed, its energy is converted and it no longer exists as light.
The color of an object is determined by the way it absorbs light
falling upon it. A womans dress appears red when it absorbs the
blue and green rays of white light and reflects the red waves.Basic
Photography | Class 001 | Photography
FundamentalsDIFFRACTIONDIFFRACTION, or change of direction, always
follows a simple rule. In passing from one transparent substance
into another of greater density, refraction is toward the normal.
In passing from one transparent substance into another of lesser
density, refraction is away from the normal. In this rule the
normal is defined as a line perpendicular (90) to the surface
between the mediums.
DISPERSION The speed of light in a medium depends on the
wavelength of the light. As light enters a more dense medium, the
short waves, such as blue, are slowed more than the long waves,
such as red. Thus the index of refraction of a medium varies with
the wavelength, and the different colors of light are bent
different amounts. This changing index of refraction or the
breaking up of white light into its component colors is called
dispersion.
Basic Photography | Class 001 | Photography FundamentalsBasic
Photography | Class 001 | Photography FundamentalsWavelength is the
distance from the crest of one wave to the crest of the next wave.
In wave motion theory, light, wavelength, speed, and frequency are
important characteristics, and they are interrelated. The
wavelengths of light are so small that they are measured in
nanometers (nm). A nanometer is equal to one millionth of a
millimeter. Wavelengths of light range from about 400nm to 700nm in
length and travel in a straight-line path. In other words eyes are
only sensitive to a narrow band between wavelengths 400nm 700nm (1
Nanometer or nm = 1/1,000,000 millimeter). This limited span of
wavelengths is therefore known as visible spectrum.
Basic Photography | Class 001 | Photography FundamentalsBasic
Photography | Class 001 | Photography FundamentalsThe rays of light
enter our eyes and hit the lens present in the eye. The lens
converges the light which falls on the retina. These rays then
excite the nerves (Cones and Rods), which carry message to the
brain through optic nerve. The brain then understands what the eye
is trying to tell and sees the object that the eye was looking at.
Similarly, we can see different colors, darkness and brightness. By
varying the intensity of rays that fall on the eye, we can make out
the different colors. Basic Photography | Class 001 | Photography
FundamentalsWorking of a camera is based on the concept of human
vision itself. If you have noticed just like your eye all cameras
would have a lens, an iris (called aperture in cameras) and a
recording material.Basic Photography | Class 001 | Photography
FundamentalsBasic Photography | Class 001 | Photography
FundamentalsBasic Photography | Class 001 | Photography
FundamentalsBasic Photography | Class 001 | Photography
Fundamentals
