Applied Physics Waves Unit

Slides:

Advertisements

Similar presentations

Advertisements

Light (and the electromagnetic spectrum)

Chapter 14 Light and Color.

Light and Color Chapters 27 – 28 Created by N. Ferreira with the help of A, Kirby.

Light and Color Chapters 27 – 28

Chapter 28 – Color Chapter preview Sections The Color Spectrum

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

Chapter 28 Color.

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.

Chapter 28 Color Separation of visible light into its different colors Newton used a prism to show how light is separated into its component parts When.

Roses Are Red Sunsets Are Too Why Does This Happen When The Sun Sets Before You? By: Victoria D. Table of Contents.

Light and Color. Light interacting with matter When light hits matter, at least one of three things can happen: – Reflection When light bounces off an.

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

Chapter 27 and 28.  Both a wave and a particle  Electromagnetic wave  Photon  Wave/Particle Duality (Quantum Physics)  Speed of Light (c) =  300,000,000.

Physical Science Light. Electromagnetic Spectrum.

Electromagnetic Waves and Color Physics Ms. Shaver.

Electromagnetic Waves and Color Physics Mrs. Coyle.

Color Chapter 28.

Chapter 28 Color. Spectrum: The spread of colors seen when light is passed through a prism or diffraction gradient.

 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.

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.

1. The blind spot of the human eye results from a) rods attached to the retina. b) cones attached to the fovea. c) a detached retina. d) the optic nerve.

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

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.

Color & Polarization. Color Why does a leaf appear green? Why do parts of the U.S. flag appear red? Objects appear a certain color because they absorb.

Color & Polarization.

The solar spectrum is the band of colors produced when light is dispersed by a prism. Polychromatic light consists of several colors. Monochromatic light.

Light and Color. Light interacting with matter When light hits matter, at least one of three things can happen: Reflection When light bounces off an object.

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 

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.

White Light The combination of all the colors. Sunlight is an example of white light. Newton showed that the colors in the spectrum were a property not.

Pg F46-F47.  sunlight passes through water droplets in the air and refracts by the prism  The colors are spread out from white light to red, orange,

10.1 Wave model of light Colour Theory. Wave Model of light Remember: Light waves transfer energy Light moves outward in all directions from its source.

COLORCOLOR. The Color Spectrum The spread of colors from white light when passed through a prism or diffraction grating. –Red, Orange, Yellow, Green,

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

Light Into Video U7oOI.

Warm Up Where does all light come from? Do different colors of light have different intensities? If so, what color has the greatest intensity? When two.

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.

Mixing Colors Chapter Notes. White Light Recall that when the frequencies of all visible light is mixed together, it produces white White also.

 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.

Color Chapter 28. Color Lab What colors are formed by mixing different colors of light? Consensus:

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.

Color. The Color Spectrum ROY G BiV Black and white Solar Spectrum Colors of Objects Check Question.

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

The Color Spectrum

Chapter 26 & 27 Review.

Light waves interact with materials

CHAPTER 14 LIGHT AND COLOR

28.2 Color by Reflection If the material is transparent, the reemitted light passes through it. If the material is opaque, the light passes back into the.

Chapter 28: Color.

Conceptual Physics 11th Edition

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 Intro Video

Chapter 27 COLOR.

Light and Color.

Color Color is light's version of pitch i.e. its how the eye perceives the frequency of the electromagnetic radiation between 4.3 x 1014 Hz and 6.7 x 1014.

Chapter 3 – Light 3.1 Light and Color.

This student is looking at many colors on his computer screen

Anand Muthiah Jee Park Miranda Yoo

Presentation transcript:

Applied Physics Waves Unit Chapter 28 (Color) Notes Applied Physics Waves Unit

The Color Spectrum (28.1) _______________ _______________ was the first to make a systematic study of color. By using a _______________ he showed that sunlight is composed of a mixture of _______________. He called this spread of colors the _______________. The colors were projected in the following order: _______________, _______________, _______________, _______________, _______________, _______________, and _______________. (ROYGBIV) Sunlight is an example of _______________ light. This is a _______________ of all the colors. In white light, _______________ objects appear _______________ and _______________ objects appear in their individual _______________. _______________ is not a color, but a combination of colors. Likewise, _______________ is not a color, but is the _______________ of light. It _______________ light of all visible frequencies. Isaac Newton prism colors spectrum red orange yellow green blue indigo violet white mixture white white colored colors White black absence absorbs

Color by Reflection (28.2) color The _______________ of most objects is due to the way they _______________ light. Reflected light is similar to how sound is reflected from a _______________ _______________. They project sound at a set frequency. Likewise, objects’ electrons oscillate at set frequencies, allowing for a particular _______________ to be reflected to us. Other frequencies of light are mostly _______________. Objects that reflect most frequencies (absorbing none) appear _______________. Objects that absorb most frequencies (reflecting none) appear _______________. Most objects do not reflect a single frequency, but a _______________ of frequencies. For example, an object that appears yellow may not just be yellow light, but a combination of _______________ and _______________. Objects can only reflect light frequencies that are present in the _______________. (See Figure 28.5 on p. 424) color reflect tuning fork frequency absorbed white black spread red green source(s)

Color by Transmission (28.3) As we discovered in last chapter, _______________ objects allow light to pass through them. This is called _______________. A material in a transparent object that selectively absorbs certain light frequencies is known as a _______________. For example, colored glass absorbs all _______________ except the _______________ observed. (See Figure 28.6 on p. 424) transparent transmission pigment frequencies color

Sunlight (28.4) _______________ light from the sun is a combination of all visible _______________. The brightness of the frequencies is _______________ though. Our sun has a greater intensity in the _____________ and ____________ regions. (See Figure 28.7 on p. 426) White frequencies uneven yellow green

Mixing Colored Light (28.5) ______________ of all visible frequencies, when mixed, will produce _______________ light. White also results from the combination of _______________, _______________, and _______________ frequencies of light at equal brightness. Certain colors overlapped will produce the appearance of other _______________. Examples of color mixings include: (See Figure 28.8 on p. 426) Red + Green = Yellow Red + Blue = Magenta (Pinkish Shade) Blue + Green = Cyan (Bluish Green) These can be used to produce the _______________ colors. Red, Blue, and Green are called the _______________ _______________ ___________. Here colors are mixed by _______________. Light white red green blue colors other additive primary colors addition

Color Addition and Subtraction Color Addition (light) Color Subtraction (Pigment) Red Cyan Yellow Magenta Green Blue White Black Cyan Yellow Red Magenta Green Blue

Complimentary Colors (28.6) Yellow, Magenta, or Cyan can be formed when _______ of the additive primary colors are combined. (Remember that _______ of these colors added will produce __________) When two colors are added to produce __________, these are called _______________ _______________. Examples of these are as follows: (See top of p. 428) Yellow + Blue = White Magenta + Green = White Cyan + Red = White If you begin with _________ light and subtract a single color, then the resulting color will be its _______________. For example, an object that absorbs red light will appear cyan. two three white white complementary colors white compliment

Mixing Colored Pigments (28.7) The mixing of _______________ is an entirely different process than the mixing of _______________. The color that the pigment _______________ is the color we see. The color that the pigment _______________ is the color that we do not see. For example, blue paint absorbs red, orange, and yellow; it reflects mostly blue light, but also some violet and green. (See Figure 28.11 on p. 430) _______________, _______________ , and _______________ are the best colors to use in pigments. Consider computer printers, which use these colors. These are called _______________ _______________ _______________. The reason they are referred to this way is because combinations of colored pigments _______________ more light than that of a single color. (See Table 28.1 on p. 431) pigment light reflects absorbs magenta yellow cyan subtractive primary colors absorb

Mixing Colored Pigments (28.7) Absorbs Reflects Red Blue, Green Green Blue, Red Blue Red, Green Yellow Cyan Magenta

Why the Sky Is Blue (28.8) A tuning fork set into motion will redirect _______________ in all directions. Similarly, the _______________ scatters light as it comes to the earth from the sun. The atmosphere scatters _______________ frequencies better than _______________ frequencies. Thus, we see _______________, which is a _______________ frequency. If there is dust or other particles present, then the sky will appear less _______________ because more _______________ frequency light is scattered. _______________ appear white because of the varying sizes of _______________ droplets, which scatter frequencies evenly. sound atmosphere higher lower blue high blue high Clouds water

Why Sunsets Are Red (28.9) _______________ frequencies are scattered least by our atmosphere. As the sun gets lower in the sky, the light has more _______________ to pass through. Thus, only the _______________ frequencies reach an observer for the most part. (See Figure 18.16 on p. 434) Lower atmosphere lower

Why Water is Greenish Blue (28.10) Water is a good absorber of _______________ and _______________ frequencies. As a result (through color subtraction) the water appears greenish-blue or _______________. Many animals, such as _______________ are red so that they will appear _______________ underwater. This is an excellent source of camouflage. infrared red cyan crabs black

The Atomic Color Code – Atomic Spectra (28.11) Every _______________ has its own characteristic set of colors when made to emit light. (For example, iron will emit different colors than copper when heated) The glow of any _______________ is different from any other _______________. The light from glowing elements can be analyzed by a device called a _______________. Individual glowing elements produce sets of glowing lines, which are different _______________. This is not a continuous band of color. (See figure 28.21 on p. 438) element element element spectroscope frequencies

American Flag Example Stare at the American flag for about 1 minute. Then look at the white box to the right. What do you see in the box?