Chapter 28 Color.

Slides:

Advertisements

Similar presentations

Advertisements

Color.

P H Y S I C S Chapter 8: Light and Optics Section 8A: Light and Refraction.

Chapter 28: Color Anand Muthiah Jee Park Miranda Yoo Visit For 100’s of free powerpoints.

Color Isaac Newton passed a beam of sunlight through a prism and this resulted in a patch of colors on a white piece of paper. He called this spread of.

CP Physics Mr. Miller. General Information  Sir Isaac Newton – first to realize white light composed of different colors  Prisms – separate white light.

Chapter Twenty-Five: Light 25.1 Properties of Light 25.2 Color and Vision 25.3 Optics.

Chapter 13 Light and Reflection.

How do we see colour?. Electromagnetic Energy being transferred by the Sun.

Electromagnetic Waves and Color Physics Ms. Shaver.

Electromagnetic Waves and Color Physics Mrs. Coyle.

Light and Color.

Color Chapter 28.

Light and Color. What is Light? A wave of Electromagnetic Radiation Light behaves just like any other wave Reflects, interferes, oscillates with a certain.

 Not in things themselves  Provoked by the frequencies of light emitted or reflected by things.

Color. COLOR The Color Spectrum Sun light is an example of white light. When passed through a prism, it gives the above colors. Under white light, white.

Applied Physics Waves Unit

Chapter 28. CHAPTER 28 - COLOR The physicist sees colors as frequencies of light emitted or reflected by things. For example, we see red in a rose when.

Light! Electromagnetic Waves: are vibrations of the electric and magnetic fields of moving charged particles. Electromagnetic Spectrum: is the complete.

25.2 The human eye The eye is the sensory organ used for vision.

12.2 Essential Questions How do you see color? What is the difference between light color and pigment color? What happens when different colors are mixed?

UNIT EIGHT: Waves Chapter 24 Waves and Sound Chapter 25 Light and Optics.

What title would you give to each droodle?. Almost bald man with a split-end.

Color. Color 1. SELECTIVE REFLECTION Most objects "reflect" rather than emit light. Radiations that match the resonant frequencies of the atoms are.

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

KeiErica Perry & LeAmbreya Long. The colors around you are due to the way the objects reflect light Different materials have different natural frequencies.

COLOR AND LiGHT BY ASHANTi’ DAViS & SATORiA PATTON.

Color and Vision General Physics. Band of Visible Light ROYGBIV (Red, Orange, Yellow, Green, Blue, Indigo, Violet)

Chapter 27 Color 1.SELECTIVE REFLECTION Most objects "reflect" rather than emit light. The spring model of the atom works well in explaining reflection.

Chapter 27 Color 1.SELECTIVE REFLECTION Most objects "reflect" rather than emit light. The spring model of the atom works well in explaining reflection.

Light Chapter 10. Standards: P4a: Identify the characteristics of electromagnetic and mechanical waves. P4b: Describe how the behavior of light waves.

Color White is the combination of all colors. Spectrum Sunlight can be split into its component colors Called the color spectrum (Roy G. Biv)  Red 

IPC Notes Light & Color. The colors of light that we see are the colors of light that an object reflects towards our eyes. ex) blue jeans absorb all colors.

Colors of Pigment The primary colors of pigment are magenta, cyan, and yellow. [

COLOR PHYSICS By Camri Mason. THE DISCOVERY Newton was the 1 st person to discover the spectrum. His experiment consisted of the a triangular prism, white.

ColorColor Unit 12. Isaac Newton was the first to make a systematic study of color. By passing a narrow beam of sunlight through a triangular- shaped.

 Light waves are a little more complicated than water waves. They do not need a medium to travel through. They can travel through a vacuum.

LIGHT Chapter Twenty-Five: Light  25.1 Properties of Light  25.2 Color and Vision  25.3 Optics.

9 TH GRADE SCIENCE CHAPTER 14 B Light and Color. Color Color:  Due to reflected light  Reflect all light  White  Reflect no light  Black Filters:

Prisms, total internal reflection, polarization, how we see color, how vision is corrected and rainbows. Light and Color.

Jeopardy Light EM Spectrum Vision Color Light Sources Q $100 Q $200 Q $300 Q $400 Q $500 Q $100 Q $200 Q $300 Q $400 Q $500 Final Jeopardy.

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

Chapter 28: Color. The Color Spectrum Isaac Newton and his prism The spectrum (ROYGBIV) White light –Combination of all colors –Whit objects appear white.

16.2 Color and Vision. Chapter 16 Objectives  Describe at least five properties of light.  Describe the meaning of the term “intensity.”  Use the speed.

Color Chapter —28.4 Notes. The Color Spectrum Isaac Newton was the first to make a systematic study of color By passing sunlight through a glass.

 There are 3 primary colors of light RED, GREEN, & BLUE  When these colors of light are mixed… White Light is produced  This process is called color.

ColorColor. The Color Spectrum Isaac Newton passed a narrow beam of sunlight through a triangular-shaped glass prism showed that sunlight is composed.

Here ’ s Looking at hue, Kid You have probably noticed that the COLOR of an object can appear different under different lighting conditions.

Light and Color. An objects color depends on the wavelength of light it reflects and that our eyes detect. White light is a blend of all colors. When.

The Visible Spectrum And how we see it. What is Visible Light? The cones in the eye are only sensitive to a narrow range of EM frequencies. Visible Light.

WAVES AND COLOR.

Electromagnetic Waves and Color. Color Color is the perceptual quality of light. Color is the perceptual quality of light. The human eye can distinguish.

Section 4 Color.

Warm Up Between Red or Blue light, which has a larger

The Color Spectrum

Chapter 28: Color.

Light and Color.

Why does a blue shirt look blue?

Polarization Polarized light—light waves that vibrate in a single plane Polaroid filters block one plane of light waves.

Electromagnetic Spectrum

Chapter 27 Color. Chapter 27 Color 1. SELECTIVE REFLECTION Most objects "reflect" rather than emit light. The spring model of the atom works well in.

Chapter 27 Color.

Light and Color.

Chapter 14: Light Section 2: Light and Color

Electromagnetic Waves and Color

Anand Muthiah Jee Park Miranda Yoo

Electromagnetic Waves and Color

Presentation transcript:

Chapter 28 Color

The Color Spectrum Newton was the first person to make a systematic study of color Newton showed that sunlight is composed of all the colors of the rainbow which he called the light spectrum Newton showed that the colors in the spectrum were not a property of a prism (used to separate white light), but of the light itself White light contains all the colors of the spectrum The color black is not a color itself, but is the absence of light

Carbon soot is an excellent absorber of light and looks very black Most objects appear the color they do due to reflected light Light is reflected from objects in a manner similar to the way sound is “reflected” from a tuning fork when another tuning fork nearby sets it into motion a tuning fork can be made to vibrate even when the frequencies are not matched, although at significantly reduced amplitudes. The same is true for atoms and molecules Different materials have different natural frequencies for absorbing and emitting radiation. In one material, electrons oscillate readily at certain frequencies

A pigment is a material that selectively absorbs colored light Pigments are used for coloring paint, ink, plastic, fabric, cosmetics, and food

Plant Pigments:

In the human eye, light is received by specialized cells in the retina called rods and cones These cells are located in the retina at the back of the eye Rod cells are able to function in dim light Cone cells are only able to function in brighter light Rod cells are concentrated at the edges of the retina whereas cone cells are located more in the center of the retina. At dusk try using your peripheral vision to look at an object. Then look at them directly. You will notice that it is easier to see objects in dim light with your peripheral vision.

Mixing Colors

Fig 28.10 p. 428 white light (top left), yellow and green light (top right), blue light (bottom left), red light (bottom right