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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 lower the frequency is, the less energy the electromagnetic wave carries. The wavelength is just (186,282 divided by the frequency) miles, or (300,000 divided by the frequency) kilometers.
Frequency determines the scalar energy of electromagnetic wave, E= hf=hc/r.
5.3x10^-21
Depends on the wave. In electromagnetic waves, a shorter wavelength means a higher frequency - and the energy of a photon is directly proportional to frequency.
Frequency
Frequency
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 lower the frequency is, the less energy the electromagnetic wave carries. The wavelength is just (186,282 divided by the frequency) miles, or (300,000 divided by the frequency) kilometers.
Frequency determines the scalar energy of electromagnetic wave, E= hf=hc/r.
A gamma ray is an electromagnetic wave. It has the highest frequency (and energy) as well as the shortest wavelength on any wave on the electromagnetic spectrum.
5.3x10^-21
Depends on the wave. In electromagnetic waves, a shorter wavelength means a higher frequency - and the energy of a photon is directly proportional to frequency.
En electromagnetic wave is assimilable to a photon. The energy of a photon is equal to its frequency (that determines its "color") multiplied by the Planck's constant (h).
Yes, energy transfer for mechanical waves is dependant on frequency as well as amplitude. Energy of electromagnetic waves, however, does not rely on frequency but solely on amplitude.
Momentum, energy, frequency, and wave number (but not wave vector.)
In nuclear reactions, energy is usually released. This energy is released as an electromagnetic wave. Because of the large amount of energy involved, this wave has a high frequency/energy - a gamma ray.