The higher the frequency of a wave, the higher its energy
A quantum of radiant energy, also known as a photon, is related to its frequency by
E = hf
where E is the energy, h is Planck's constant, and f is the frequency. The higher the frequency, the more energy per photon.
The energy of a quantum of emitted radiation related to the frequency of the radiation
is directly proportional to the frequency.
The proportionality constant is known as Planck's Constant.
E = (h) x (frequency).
E = hv E = energy (Joules) h = Planck's constant = 6.626068 x 10-34 (Js) v = frequency (Hz) Hence, h ∞ v
The higher the frequency of a wave, the higher its energy.
The shorter the wavelength of a wave, the higher its energy.
Usually with electromagnetic waves, the frequency and energy is opposite to the wavelength. An EM wave such as radiowaves have huge wavelengths, slow frequencies and small amounts of energy. An EM wave such as X-rays have tiny wavelengths, fast frequencies and large amounts of energy.
Gamma radiation is an extremely high frequency EM wave and is probably the common lightwave with the highest energy. Since energy is proportional to frequency, the highest energy wave would be that with the highest frequency.
If only there were an equation that related the speed of EM waves, wavelength, and frequency... c=(wavelength)(frequency) Make sure and keep your units straight.
The higher the frequency of a wave, the higher its energy.
The shorter the wavelength of a wave, the higher its energy.
Usually with electromagnetic waves, the frequency and energy is opposite to the wavelength. An EM wave such as radiowaves have huge wavelengths, slow frequencies and small amounts of energy. An EM wave such as X-rays have tiny wavelengths, fast frequencies and large amounts of energy.
E=hv Where: E is energy h is plank's constant and v is frequency.
Gamma radiation is an extremely high frequency EM wave and is probably the common lightwave with the highest energy. Since energy is proportional to frequency, the highest energy wave would be that with the highest frequency.
If only there were an equation that related the speed of EM waves, wavelength, and frequency... c=(wavelength)(frequency) Make sure and keep your units straight.
There is no upper limit to how much energy (and frequency) an electromagnetic wave can have. The highest frequency waves are called gamma radiation.There is no upper limit to how much energy (and frequency) an electromagnetic wave can have. The highest frequency waves are called gamma radiation.There is no upper limit to how much energy (and frequency) an electromagnetic wave can have. The highest frequency waves are called gamma radiation.There is no upper limit to how much energy (and frequency) an electromagnetic wave can have. The highest frequency waves are called gamma radiation.
The ones we call "gamma rays" do. Their frequency is so high that in the time of one cycle, light travels only a distance similar to the size of an atom.
The shorter the wavelength of a wave, the higher its energy.
An EM wave is caused by an energy source, such as something as big as a supernova or something as small as an electron changing in speed. I would say the change in the energy level of the energetic particle that causes the wave determines the frequency of the wave. +++ Whilst you may be right about the quantum physics, the frequency of the wave is that of the energy source, be it in a star or a radio transmitter, driving it.
No. The frequency of an EM wave depends only on the source, and cannot be altered once it has been emitted.
radio wave