Color Vision Our visual system interprets differences in the wavelength of light as color Rods are color blind, but with the cones we can see different.

Slides:

Advertisements

Similar presentations

Chapter 9: Color Vision. Overview of Questions How do we perceive 200 different colors with only three cones? What does someone who is “color-blind” see?

Advertisements

Chapter 9: Perceiving Color

Color Vision. Wavelength properties: ● Hue: psychological reaction to different wavelengths of light. (Basically the same thing as color). ● Different.

Midterm 2 March 9 th and 10 th Review Session Monday 7pm in this room (probably)

Wavelength and Color Recall that light is electromagnetic radiation.

The Visual System. Figure 6.1 A cross-sectional view of the human eye Klein/Thorne: Biological Psychology © 2007 by Worth Publishers.

Read Land article for Thursday Test starts Wednesday of next week!!!!

Read article by Land for Thursday Article by Anne Treisman coming up in about two weeks.

COLOR PERCEPTION Physical and Psychological Properties Theories – Trichromatic Theory – Opponent Process Theory Color Deficiencies Color and Lightness.

Chapter 7: Color Vision How do we perceive color?.

Color Vision: Sensing a Colorful World

THEORIES OF COLOR VISION

PSYCH JOURNAL 9/24/2013 Vision is the most frequently studied sense. Why do you think this is the case? Why is vision so important? How would your life.

COLOR, FORM, AND DISTANCE. COLOR  The color of an object is determined by the wavelengths of light that object absorbs and reflects.  When you paint.

Module 12 Vision.  Transduction  conversion of one form of energy to another  in sensation, transforming of stimulus energies into neural impulses.

Vision By: Bethany, Iqra, Clint, Cameron, Nick. The Process Light enters eye through the cornea Then, it goes through the pupil which is surrounded by.

The Visual System: The Structure of the Visual System Module 9: Sensation.

Vision – our most dominant sense. Vision Purpose of the visual system –transform light energy into an electro-chemical neural response –represent characteristics.

Sensation and Perception Sensations: take it in Sensations: take it in Perception: what we do with it Perception: what we do with it.

1. Provide an example of sensory adaptation. No longer hearing the buzzing of the projector.

Mr. Koch AP Psychology Forest Lake High School

© 2011 The McGraw-Hill Companies, Inc. Instructor name Class Title, Term/Semester, Year Institution Introductory Psychology Concepts Vision.

3.2 VISION 70% of your receptor cells are in your eyes taste and touch need direct contact where as sight and smell don’t Sight can be experienced from.

The Visual System. The Nature of Light Electromagnetic Spectrum – An energy spectrum that includes X-rays, radar, and radio waves – A small portion of.

VISION From Light to Sight. Objective To describe how the receptor cells for vision respond to the physical energy of light waves and are located in the.

Chapter 9: Perceiving Color. What Are Some Functions of Color Vision? Color signals help us classify and identify objects. Color facilitates perceptual.

Do Now Try to label the diagram of the eye Use your textbook and the terms on the right to help you Optic nerve Pupil Lens Retina Vitreous Iris Cornea.

Vision EYE see you!. Transduction  Transduction: Technically speaking, transduction is the process of converting one form of energy into another.  As.

Color and Vision Key Question: How do we see color?

Read article by Land for Thursday Article by Anne Treisman coming up in about two weeks.

Sensation Vision The Eye Theories Hearing The Ear Theories Other Senses Smell Taste Pain Gestalt Principles Perceptual Constancies Perception Basic Principles.

Eye is the window to our soul. English physicist Sir Isaac Newton, in an experiment, observed that a ray of sunlight, or white light, was broken up into.

Let’s Get Visual!. What We See p. 125 Hue Visual experience specified by color names and related to the wavelength of light. Intensity Influences brightness.

Vision Structure of the Eye We only use light energy to see.

Visual Information Processing October 30, Feature Detectors Certain cells in the visual cortex (occipital lobe) respond to specific features of.

Chapter 16 Light and Color  16.1 Properties and Sources of Light  16.2 Color and Vision  16.3 Photons and Atoms.

How do we see color? There is only one type of rod. It can only tell the intensity of the light, not its color. Because the cones can differentiate colors,

Ooops… Before we go on…there are a few things I want to cover that we accidentally skipped over…..

Color, Form and Depth Perception

Sensation and Perception: Vision Mr. Callens Psychology.

Serial vs. Parallel Processing Serial Processing – Process items one after another – Conscious processing Parallel processing – Simultaneously processing.

The Visual System: The Structure of the Visual System Module 9: Sensation.

Sensation and Perception. Transformation of stimulus energy into a meaningful understanding –Each sense converts energy into awareness.

The Visual System: The Structure of the Visual System.

Chapter 9: Perceiving Color. Figure 9-1 p200 Figure 9-2 p201.

Perception of stimuli Option A.3. Receptors detect changes in the environment. List and describe the types of specialized receptors in humans. a. Mechanoreceptors-

Psychological dimensions:

The Visual System: The Structure of the Visual System Module 9: Sensation.

Sensation. The process by which our sensory systems (eyes, ears, and other sensory organs) and nervous system receive stimuli from the environment A person’s.

Vision. The Eye and Vision It’s the most complex and most important sense for humans. The vision “system” transfers light waves into neural messages that.

The Visual System: The Structure of the Visual System

Vision- How do we see what we see?

Transduction Transformation of stimulus energies to electrochemical energy of neural impulses Sensory receptors are responsible for transduction Rods and.

The Structure of the Visual System

Review: Vision.

THE VISUAL SYSTEM: ESSENTIALS OF SIGHT

Rozi Xu & Daniil Kolesnikov

Why does a blue shirt look blue?

Perceptual Constancies

VISION Module 18.

Do Now Explain the purpose of rods and cones?

The Parts of the eye and vision

Color Vision and Color Constancy

Changing Light Waves to Neural Impulses

Vision. Vision Vision Our most dominating sense (Visual Capture). The eye is like a camera (it needs light).

(Do Now) Journal What is psychophysics? How does it connect sensation with perception? What is an absolute threshold? What are some implications of Signal.

Presentation transcript:

Color Vision Our visual system interprets differences in the wavelength of light as color Rods are color blind, but with the cones we can see different colors This difference occurs because we have only one type of rod but three types of cones

Properties of Color Hue—property of wavelengths of light known as color; different wavelengths produce different colors in our brain Saturation or purity—property of color that corresponds to the purity of the light wave. –1 wavelength is considered more saturated than many. –Highly saturated color is rich & vivid. –Less saturated color is faded & dull Brightness—perceived intensity/brightness of a color, corresponds to amplitude (height) of the light wave. –The higher the wave, the brighter the color.

Do objects possess the color we see? NO! An object gets is color from the wavelength of light it reflects. A red apple is actually absorbing all other wavelengths of light and reflecting back only the red wavelength to your eye. Something that is white is reflecting all the wavelengths of color to your eye. Something that is black is absorbing all the wavelengths of color.

Color Mixing Two basic types of color mixing –subtractive color mixture example: combining different color paints –additive color mixture example: combining different color lights

Subtractive Color Mixing When mixing colored paints, each new color SUBTRACTS (soaks up) another wavelength. Red, blue, and yellow combine to make black paint.

Additive Color Mixing When mixing colored lights, each new color ADDS another wavelength. Red, green, and blue combine to make white light. Examples: –red + green = yellow –red + blue = purple –green + blue = cyan

Young & Helmholtz Trichromatic (three-color) Theory Theory of color vision that says cones are “tuned” to be sensitive to red, green and blue light All the colors we see are a combination of these three colors. Also known as the Young & Helmholtz Theory Similar to the design of a color TV

Trichromatic Theory of Color Vision Researchers found that by mixing only three primary lights (usually red, green and blue), they could create the perceptual experience of all possible colors This lead Young and Helmholtz to propose that we have three different types of photoreceptors (cones), each most sensitive to a different range of wavelengths

Trichromacy and TV All color televisions are based on the fact that normal human color vision is trichromatic Although we perceive the whole range of colors from a TV screen, it only has three colored phosphors (red, green, and blue) By varying the relative intensity of the three phosphors, we can fool the visual system into thinking it is seeing many different colors

Color Deficient Vision People who lack one of the three types of cones Usually the red or green receptors are missing Usually referred to as color blindness 1 in 50 people are color blind. Inherited and found more in males (sex-linked trait). Trichromats – people with normal color vision Monochromats – no color vision Dichromats – blind to red/green or yellow/blue

Normal vision

Red/Green Color Blindness

Opponent Process Theory of Color Vision Some aspects of our color perception are difficult to explain by the trichromatic theory alone Example: afterimages –if we view colored stimuli for an extended period of time, we will see an afterimage in a complementary color when we view something white.

Opponent-Process Theory of Color Theory that says color is processed in opponent pairs of color: –Red-green, yellow-blue, black-white Light that stimulated one half of the pair inhibits/hinders the other half Ewald Hering developed this

Afterimage Effect Stare without blinking at the white dot

Put the Bird in the Cage! Stare at the bird then look at the cage.

Opponent-Process Theory Explaining the afterimage effect: –In the retina and thalamus are ganglion cells that are “turned on” by red but “turned off” by green and vice versa. –A single ganglion cell handles both but only one at a time. (you can’t see “greenish-red”) –By tiring out green receptors staring at the image, the other opponent red receptors turn on when you view white (reflects all colors)

Current View of Color Vision Our current view of color vision is that it is based on both the trichromatic and opponent process theories Color Vision is a two stage process 1.The Retina’s red, green, & blue cones respond in varying degrees to different colors (trichromatic theory) 2.Their signals are then processed by ganglion cells that encode color in terms of opposing pairs while they are sending the info to the thalamus and visual cortex which also encode the info by opponent pairs (opponent-process theory)