Which color of visible

light has the highest

frequency, red or blue?

Which color of visible light

has the highest frequency,

red or blue?

Blue = high frequency

The left side of the visible light spectrum, RED, has the longest wavelength and the lowest frequency.

You can see your

reflection in a mirror, but

you cannot see through

the mirror because it is

______________.

You can see your

reflection in a mirror, but

you cannot see through

the mirror because it is

__opaque__.

When you look down at an

object in the water, it is

really _____________ than it

appears because of

refraction of light waves.

When you look down at an

object in the water, it is

really farther away_ than it

appears because of

refraction of light waves.

Which of the following EM

waves has the shortest

wavelength, ultraviolet

rays, radio waves, or

visible light?

Which of the following EM

waves has the shortest

wavelength, ultraviolet rays,

radio waves, or visible light?

Ultraviolet has the shortest

wavelength of these 3 choices.

R M I V U X G ** what does this mean??

When a beam of light hits a

mirror, that is called the

angle of _________________,

and is the same as the angle

of ____________________.

When a beam of light hits

a mirror, that is called the

angle of incidence, and

is the same as the angle

of reflection.

A. Is the same as sound waves and water waves

B. Can travel only through matter

C. Can travel only through empty space

D. Consists of changing electric and magnetic

fields

A. Is the same as sound waves and water waves

B. Can travel only through matter

C. Can travel only through empty space

D. Consists of changing electric and magnetic

fields

A. Visible Light

B. Infrared waves

C. Gamma rays

D. Ultraviolet waves

A. Visible Light

B. Infrared waves

C. Gamma rays

D. Ultraviolet waves

A. X ray

B. Gamma ray

C. Visible light

D. Microwave

A. X ray

B. Gamma ray

C. Visible light

D. Microwave

A.Microwave

B. Infrared ray

C.Ultraviolet light

D.Gamma ray

A.Microwave

B. Infrared ray

C.Ultraviolet light

D.Gamma ray

A.Microwave

B. Infrared ray

C.Visible light

D.Radio wave

A.Microwave

B. Infrared ray

C.Visible light

D.Radio wave

A. X ray

B. Microwave

C. Gamma ray

D. Ultraviolet light

A. X ray

B. Microwave

C. Gamma ray

D. Ultraviolet light

A. Amplitude

B. Usefulness

C. Wavelength

D. Speed

A. Amplitude

B. Usefulness

C. Wavelength

D. Speed

A. Diffraction

B. Scattering

C. Absorption

D. Destructive interference

A. Diffraction

B. Scattering

C. Absorption

D. Destructive interference

A. Scattering

B. Absorption

C. Refraction

D. Reflection

A. Scattering

B. Absorption

C. Refraction

D. Reflection

A. Fossil fuels

B. EM waves from the sun

C. Food

D. Photosynthesis

A. Fossil fuels

B. EM waves from the sun

C. Food

D. Photosynthesis

A. Constructive interference

B. Diffraction

C. Scattering

D. Absorption

A. Constructive interference

B. Diffraction

C. Scattering

D. Absorption

A. Scattering

B. Diffraction

C. Absorption

D. Destructive interference

A. Scattering

B. Diffraction

C. Absorption

D. Destructive interference

A.Is diffracted

B. Is refracted

C.Is transmitted

D. Is reflected

A.Is diffracted

B. Is refracted

C.Is transmitted

D. Is reflected

A. X ray

B. Visible light

C. Gamma ray

D. Radio wave

A. X ray

B. Visible light

C. Gamma ray

D. Radio wave

A. Refraction

B. Reflection

C. Absorption

D. Diffraction

A. Refraction

B. Reflection

C. Absorption

D. Diffraction

A. Are diffracted

B. Are transmitted

C. Are reflected

D. Are refracted

A. Are diffracted

B. Are transmitted

C. Are reflected

D. Are refracted

A. Constructive interference

B. Destructive interference

C. Absorption

D. Refraction

A. Constructive interference

B. Destructive interference

C. Absorption

D. Refraction

A. Absorption

B. Scattering

C. Refraction

D. Diffraction

A. Absorption

B. Scattering

C. Refraction

D. Diffraction

A. Luminous

B. Infrared

C. Refracted

D. Illuminated

A. Luminous

B. Infrared

C. Refracted

D. Illuminated

A. Larger than the wavelength

B. The exact same size as the wavelength

C. The same size or smaller than the wavelength

D. At least twice the size of the wavelength

A. Larger than the wavelength

B. The exact same size as the wavelength

C. The same size or smaller than the wavelength

D. At least twice the size of the wavelength

A. The light’s amplitude

B. The light’s wavelength

C. The light’s brightness

D. The light’s interference

A. The light’s amplitude

B. The light’s wavelength

C. The light’s brightness

D. The light’s interference

Red, blue, and green overlap in this example.

Red, blue, and green overlap in this example.

This is COLOR ADDITION, When you overlap

LIGHT, the center is WHITE!

Yellow, magenta, and cyan overlap in this example.

Yellow, magenta, and cyan overlap in this example. When you overlap paint, or pigment, you will get BLACK

because of COLOR SUBTRACTION. When the colors SUBTRACT,

it leaves you with BLACK

A. The lightning happens after the thunder

B. Your eyes work faster than your ears

C. Sound travels faster than light

D. The light waves travel faster than the

sound waves

A. The lightning happens after the thunder

B. Your eyes work faster than your ears

C. Sound travels faster than light

D. The light waves travel faster than the

sound waves

1. 2.

3. 4.

5.

Normal