If wavelength goes up, energy goes down. If frequency goes up, energy goes up.
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The frequency of the wave determines its energy. The faster the frequency, the more energy it has.
A smaller wavelength
The sound gets louder
Electrical Energy.
It is generally unrelated.In the case of an electromagnetic wave, the energy FOR A SINGLE PHOTON is directly proportional to the frequency, i.e., at higher frequencies the photons have more energy. But that tells us nothing about the energy of larger amounts of light, for example.
No, they are different. Ozone depletion results in more ultraviolet (short wave) radiation reaching earth's surface. The greenhouse effect results in more infrared (long wave) radiation being absorbed by the atmosphere.
The energy of a wave moves forward with the wave. A wave is moving energy, and the wave carries it in the direction of propagation.
As the amplitude of a wave increases, the energy increases. In general terms the energy transported by a wave is proportional to the amplitude squared.
It really depends on the type of wave. In the case of electromagnetic waves, a higher frequency results in more energy per photon. Therefore, a longer wavelength results in less energy per photon.
Electrical Energy.
normally by its frequency....more the frequency greater is the energy of the wave
The answer is true. The greater the energy the greater the amplitude.
Yes dude the energy of wave depends upon the amplitude The more the trough ( upper part of wave) moves away from the peroendicular distance the more it spends energy i.e. energy is inversely proportional to ampltitude
"Wave energy" can be a lot of things, you need a more specific question. Energy that travels in "waves" includes a lot of things such as: Radiation, thermal energy, even matter (which has both a wave length and unless frozen, has energy). So... no natural gas is not more available then "wave energy".
It is generally unrelated.In the case of an electromagnetic wave, the energy FOR A SINGLE PHOTON is directly proportional to the frequency, i.e., at higher frequencies the photons have more energy. But that tells us nothing about the energy of larger amounts of light, for example.
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.
shorter wavelength
It has more energy.
Has more energy than a wave with low amplitude.
Short Wave length