Vision and light energy (AP psych)
Iris
A ring of muscle tissue that forms the colored part of the eye. It controls the size of the pupil
Pupil
Adjustable opening in the center of the eye through which light passes
Blind spot
Area in the retina where the optic nerve leaves the back of the eye. No vision here is possible
Farsightedness
Can see distant objects more clearly (eyeball may be too short)
Nearsightedness
Can see nearby objects more clearly (eyeball may be too long)
Rods
Detect black, white and grey. Mainly in periphery of retina. Night vision and peripheral vision
Wavelength
Distance from the peak of one light or sound wave to the next. Determines HUE (color) and PITCH (audition)
Cones
Found mainly in the fovea (center of the retina). Color vision and visual activity.
Feature detectors
Nerve cells in the brain to respond to specific features of a visual stimulus, such shape, angle, or movement.
Color consistency
Perceiving familiar objects as having consistent color, even if hanging illumination alters the wavelength reflected by the object
Path of light waves
Rods+cones-bipolar cells-ganglion cells. Ganglion cells come together to form the optic nerves that transmit visual info to the brain.
Visual acuity
Sharpness of vision
Receptor cells
Specialized neurons designed, in case, to transduce light energy into neural impulses
Parallel processing
The ability of the brain to process several aspects of a situation simultaneously
Amplitude
The height of light or sound wave. Determines BRIGHTNESS in vision and LOUDNESS in hearing
Lens
The transparent structure behind the pupil that changes shape (accommodation) to help focus images on the retina.
Opponent process theory
Theory that opposing retinal processes (red-green, yellow-blue, black-white) enable color vision. Some cells are stimulated by one color and inhibited by another
Young-Hemoltz theory
Theory that retina contains three types of cones-- one for red, blue, and green. When combined they produce any color.
