Does amplitude affect energy of photons?
Does amplitude affect energy of photons?
So in the end, the amplitude of a transverse pulse is related to the energy which that pulse transports through the medium. Putting a lot of energy into a transverse pulse will not effect the wavelength, the frequency or the speed of the pulse.
Can the same type of light can have different amplitudes?
Both Wave 1 and Wave 2 have the same wavelength but different amplitudes. The wavelength of light is an important property for it is this that determines the nature of the light. Red light has a different wavelength to that of blue light and green light has a different wavelength from both of them.
Are photons affected by electromagnetic fields?
According to theory of properties of photon, they can not be affected by electric and magnetic fields and it is neutral.
Do photons have different amplitudes?
Photons only have one amplitude. It is not possible to align the wave of two photons to have same frequency, same phase and same direction of propagation. Photon is a quantized unit of energy.
Can two EM waves with the same frequency have different amplitudes?
Waves can be described in terms of their frequency and amplitude. These two waves have the same amplitude, but different frequencies. The higher frequency wave has a shorter wavelength (distance between successive peaks). These two wave have the same frequency, but different amplitudes.
What happens when two waves with different amplitudes meet?
When two waves meet at a point, they interfere with each other. In constructive interference, the amplitudes of the two waves add together resulting in a higher wave at the point they meet. In destructive interference, the two waves cancel out resulting in a lower amplitude at the point they meet.
Does frequency affect number of photons?
The higher the frequency, the more energy the photon has. Of course, a beam of light has many photons.
Does amplitude decrease with frequency?
The simple answer is that energy is proportional to the square of frequency and square of amplitude and so increasing frequency must mean amplitude decreases, however that’s assuming the energy of each mode is the same.