3. How is wavelength related to the energy of the colors of light? a. As wavelength increases, energy fluctuates. b. As wavelength increases, energy decreases. c. As wavelength increases, energy also increases. d. There is no relationship between wavelength and energy. 4. How is frequency related to the energy of the colors of light? a. As frequency increases, energy fluctuates. b. As frequency increases, energy also increases. c. As frequency increases, energy also decreases. d. There is no relationship between frequency and energy. 5. A high-frequency wave has than a low-frequency wave a. a longer wavelength and a lower energy b. a shorter wavelength and a lower energy c. a shorter wavelength and a higher energy d. a longer wavelength and a higher frequency

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ds1628395 ds1628395 · Answer 1 · 2021-10-19T08:42:07+02:00

Answer:

Explanation:

This relates to energy of a photon. We know the relationship between wavelength (represented by

λ

) and frequency (represented by

ν

), according to to which they are inversely related and their product is the velocity of wave and in case of photon it is represented by

c

.

The relation in case of photon is given by

E

=

h

c

λ

or

E

=

h

ν

, where

h

is Planck's constant i.e, energy is directly proportional to frequency and inversely proportional to wavelength.