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What happens to the wavelength of a photon as its energy increases?

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What happens to the wavelength of a photon as its energy increases?

The relation that we now believe to be correct is that the wavelength of the photon decreases as the energy of the photon increases. They are related by λ = hc/ E photon where h is Plank’s constant, c is the velocity of light and λ is the wavelength of the photon.

Why does wavelength decrease as energy increases?

As a wavelength increases in size, its frequency and energy (E) decrease. From these equations you may realize that as the frequency increases, the wavelength gets shorter. Mechanical and electromagnetic waves with long wavelengths contain less energy than waves with short wavelengths.

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What happens when a photon increases?

As the frequency of a photon goes up, the wavelength () goes down, and as the frequency goes down, the wavelength increases. …

What happens to the wavelength of a photon after it collides it collides with an electron?

When a photon collides with an electron then the effect of it is called Compton scattering where the photons interact with the electron, losing momentum and therefore increase in wavelength.

What is the relation between wavelength and energy?

Wavelength is related to energy and frequency by E = hν = hc/λ, where E = energy, h = Planck’s constant, ν = frequency, c = the speed of light, and λ = wavelength. Wavelength the distance between any given point and the same point in the next wave cycle.

What happens to light when you increase the wavelength?

As the wavelength of light increases the frequency decreases. Based on the last equation, wavelength and energy are also inversely proportional. Therefore, as the wavelength of light increases, A. frequency decreases and energy decreases.

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How does wavelength affect energy of a wave?

Just as wavelength and frequency are related to light, they are also related to energy. The shorter the wavelengths and higher the frequency corresponds with greater energy. So the longer the wavelengths and lower the frequency results in lower energy. The energy equation is E = hν.

How does increasing the energy of a wave affect its wavelength?

The amount of energy carried by a wave is related to the amplitude of the wave. A high energy wave is characterized by a high amplitude; a low energy wave is characterized by a low amplitude. Putting a lot of energy into a transverse pulse will not effect the wavelength, the frequency or the speed of the pulse.