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The shorter the wavelength of a wave, the higher its energy.
The higher the frequency 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.
To increase the intensity, if that's what you mean, more energy is required. That would also mean that the electromagnetic wave carries more energy.
Radio waves have the lowest energy levels. They also have the longest wavelengths and the lowest frequencies of EM radiation.
radio wave
The shorter the wavelength of a wave, the higher its energy.
em wave is generated by photons which emitter the energy in the form of light
The higher the frequency of a wave, the higher its energy.
'Heat' is the best kind of EM wave to use for warming.
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.
To increase the intensity, if that's what you mean, more energy is required. That would also mean that the electromagnetic wave carries more energy.
Radio waves have the lowest energy levels. They also have the longest wavelengths and the lowest frequencies of EM radiation.
E=hv Where: E is energy h is plank's constant and v is frequency.
gamma rays
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 energy of EM radiation depends on its frequency, and the lowest frequency corresponds to the lowest energy. Radio waves are at the low end of the energy and frequency spectrum.