Color Blindness Test What do YOU see?. Image 1 Both the normal and those with all sort of color vision deficiencies read it as 12.

Slides:

Advertisements

Similar presentations

Background Most cases of colour vision deficiency are characterised by a red-green deficiency which can be classed into two types; 1.a protan type which.

Advertisements

Colorblindness is a defect of vision affecting the ability to distinguish colors, occurring mostly in males. Color blindness is caused by a defect in the.

Test for Color Blindness If using ppt presentation, patient should be at least one meter (3.3 ft) away from the screen Please note- this material is copyright.

Effective Color Contrast: Designing for People with Partial Sight and Color Deficiencies CSE 491 Michigan State University Fall 2007 Kraemer.

Chapter 9: Perceiving Color

A man and his wife both have normal

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.

Safety Benefits of a Traffic Signal Designed for the Color Deficient Devoted to adding reason and knowledge to public policy ScienceServingSociety.com.

Human Color Perception

Providing A Natural Solution to Color-Blindness Tudor Dumitras Girish Varatkar Nick Zamora May 09, 2002.

Chapter 6 Color Image Processing Chapter 6 Color Image Processing.

Put your 3D glasses on now… The red goes on your left eye.

Designing for the Color Blind Audience Priscilla Rodriguez RHET 5307 Dr. Kuralt.

Colour blindness Test.

THE HUMAN EYE Lights and Lenses. Explore: How does the eye focus an image? Procedure: -Position yourself so you can clearly see an object across the room.

Hereditary Traits.

Color Blindness By Russell Luther. The Basics Color blindness is a very common disorder, and is also known as Color vision Deficiency. Every different.

The Misleading Genetic Disorder (Color Vision Deficiency)

The Eye and Common Eye Problems. Anatomy of the Eye Iris and Pupil.

VISION the sense we rely on most often. Photoreceptors in the eye are sensitive to wavelengths of light energy called the visible spectrum.

THE EYE CHAPTER 10. QOD #1: Pre-Test 1.) What are the 5 senses? 2.) T/F Of all the sensory receptors in the body, 70% are in the eyes. 3.) T/F Your eyebrows.

The Color Wheel Claire Heider The Primary Colors.

Presentations and Color-blindness. Color-blindness affects ~8% of men ~ 1 / 2 % of women hereditary and sex-linked (in X chromosome) –women can be unaffected.

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.

Sex-linked Traits Ch

Red-Green Color-Blindness By Chima & Chidi Iroegbu.

Human Perception of Light

A look into how we see and what we see..  Light is a type of wave.  A wave is a disturbance that transfers energy from one point to another without.

What is the function of this chart ? What eye defect you may suffer if you see the distant object like this?

Bellwork What is a photon? What is a photon? * Turn in the EM Vocab Assignment * A wave packet of an EM radiation. A wave packet of an EM radiation.

Unit 4: Sensation, Perception and States of Consciousness

COLOR BLINDNESS TEST. ANYBODY CAN READ THIS ONE !

Unit 3 Light and Optical Systems Topic 6 The Source of Colors Remember to name and date your notes!

Everyone should be able to see the “12” embedded among the colored dots. This first test is used to explain the procedure of the test to a subject.

The Structure & Function of the Eye. How you Detect Light Visible light is the part of the electromagnetic spectrum that can be detected by your eyes.

Cartography for Color Blindness Khem So 9/21/2011.

Scientific Notation. = 5.4 =3.47 Write the following in standard form A 1.8 X 10⁴ B 3.47 X 10⁷ C 4.3 X 10⁰ D 5.4 X 10⁻⁴ E 5 X 10⁻⁶ F (6 X 10⁴) (7 X 10⁵)

Human Inheritance. Other forms of Inheritance Genetics is not simple.Genetics is not simple. There are more complex gene interactions that occur other.

Visual acuity and color vision. Aims and Objectives Understand the principles behind vision testing Perform an accurate visual acuity To differentiate.

You have 10 seconds to name…

Color Blindness Test What do YOU see?. Image 1 Both the normal and those with all sort of color vision deficiencies read it as 12.

Color Blindness Test Draw/Paint I Color Blindness Test 1 in 12 males 1 in 200 females Camouflage Directions: Write down the number you see.

Ms. Hatch, What are we doing today?

Additive Colour Theory

Vision Testing.

Optical Illusions – please grab the sheet from the front and start sorting – do not use your notes! (one per table)

Physics of Color.

Vision Chapter 4 Section 2.

Pedigrees and Sex linked Traits

Sex-linked Traits and Pedigrees

Lesson 13.8 Interpret Box-and-Whisker Plots

Watch, Think, Color! ©A. Morrison, 2013.

A man and his wife both have normal

Can I color yellow?. Can I color yellow?

What Color is it?.

Color Image Processing

The Nature of Perception

Normal Distribution: Finding Probabilities

1. Start in the center with an image of the topic, using at least 3 colors. 2. Use images, symbols, codes, and dimensions throughout your mind map. 3.

Color Blindness Tests with Video Projector.

Optical Illusions An optical illusion is characterized by visually perceived images that are deceptive or misleading. The information gathered by the eye.

Let’s Learn the Basic Colors

Headlines here in upper and lower case

Headlines here in upper and lower case

Headlines here in upper and lower case

Presentation transcript:

Color Blindness Test What do YOU see?

Image 1 Both the normal and those with all sort of color vision deficiencies read it as 12.

Image 2 The normal read this as 8. Those with red-green deficiencies read this as 3. Those with total color blindness cannot read any numeral.

Image 3 The normal read this as 29. Those with red-green deficiencies read this as 70. Those with total color blindness cannot read any numeral.

Image 4 The normal read this as 5. Those with red-green deficiencies read this as 3. Those with total color blindness cannot read any numeral.

Image 5 The normal read this as 3. Those with red-green deficiencies read this as 5. Those with total color blindness cannot read any numeral.

Image 6 The normal read this as 15. Those with red-green deficiencies read this as 17. Those with total color blindness cannot read any numeral.

Image 7 The normal read this as 74. Those with red-green deficiencies read this as 21. Those with total color blindness cannot read any numeral.

Image 8 The normal read this as 6. The majority of those with color vision deficiencies can not read them or read them incorrectly.

Image 9 The normal read this as 45. The majority of those with color vision deficiencies can not read them or read them incorrectly.

Image 10 The normal read this as 5. The majority of those with color vision deficiencies can not read them or read them incorrectly.

Image 11 The normal read this as 7. The majority of those with color vision deficiencies can not read them or read them incorrectly.

Image 12 The normal read this as 16. The majority of those with color vision deficiencies can not read them or read them incorrectly.

Image 13 The normal read this as 73. The majority of those with color vision deficiencies can not read them or read them incorrectly.

Image 14 The majority of the normal and those with total color blindness cannot read any numeral. The majority of those with red-green deficiencies read this as 5.

Image 15 The majority of the normal and those with total color blindness cannot read any numeral. The majority of those with red-green deficiencies read this as 45..

Image 16 The normal read this as 26. A Color Blind person may only see a 2 or 6 depending on the type of poor color perception

Image 17 The normal color vision person will see both colors that make up the path back to the X A color blind person may only see the upper or lower half.

Image 18 In tracing the winding line between the two X's, the majority of those with red-green deficiencies trace along the line, but the majority of the normal and those with total color blindness are unable to follow the line.

Image 19 In tracing the winding line between the two X's, the normal trace the bluish-green line, but the majority of those with color vision deficiencies are unable to follow the line or follow a line different from the normal one.

Image 20 In tracing the winding line between the two X's, the normal trace the line connecting the bluish-green and the yellowish-green, those with red-green deficiencies trace the line connecting the bluish-green and purple, and those with total color blindness cannot trace any line.

Image 21 In tracing the winding line between the two X's, the normal trace the line connecting the purple and orange, those with red-green deficiencies trace the line connecting the purple and bluish-green, and those with total color blindness and weakness cannot trace any line.