Constructive interference.
Because their mass is greater than smaller waves, therefore they contain more energy.
Greater mass of waves. Force = Mass * Acceleration so where Acceleration is the same, Mass(wave) > Mass (wind), the force of waves is much greater, thusly waves have more "potential". You can also use E=MC^2 Energy = Mass * speed of light squared. Mass(wave) > Mass (wind), more energy in waves. <<>> I would guess that the total energy in the wind over the world is more than the energy in waves in all the oceans. That is because waves occur in a thin layer at the top of the water, while the wind blows everywhere at all heights.
EM waves or electromagnetic waves is radiant energy.
Light Waves.
waves carry by energy and the energy is gravatational
The energy of infrared waves is greater than the energy of radio waves. This is because infrared waves has a smaller wavelength compared to radio waves. The smaller the wavelength, the higher the energy.
The energy source of tsunami waves is much greater The energy source of Tsunami waves is much greater
Because their mass is greater than smaller waves, therefore they contain more energy.
The meaning of a high frequency wave is a shorter wavelength.For electromagnetic waves in general (including light):* At greater frequencies, you get shorter wavelengths.* At greater frequencies, you get more energy per photon.
Wave with higher amplitude carry more energy than wave with lower amplitude. For simple consideration, no amplitude is no wave and thus no energy but just a flat surface of water. Wave with amplitude must have higher energy than the no wave.
Greater mass of waves. Force = Mass * Acceleration so where Acceleration is the same, Mass(wave) > Mass (wind), the force of waves is much greater, thusly waves have more "potential". You can also use E=MC^2 Energy = Mass * speed of light squared. Mass(wave) > Mass (wind), more energy in waves. <<>> I would guess that the total energy in the wind over the world is more than the energy in waves in all the oceans. That is because waves occur in a thin layer at the top of the water, while the wind blows everywhere at all heights.
Waves get their energy from the wind. The stronger the wind, the more energy the waves will have. If there is less wind, the waves will have less energy.
Amplitude is a measure of the size of sound waves. It depends on the amount of energy that started the waves. Greater amplitude waves have more energy and greater intensity, so they sound louder. As sound waves travel farther from their source, the more spread out their energy becomes.
As you bring the source of light closer to the deflector the energy of the loss of energy from the light waves decreases. So the light waves strikes the deflector with greater energy. So more energy is needed to deflect them. Hence the deflection decreases.
waves is not a source of energy
Sounds are waves and waves have energy.
The relationship between wavelength and energy depends on the type of wave. For electromagnetic waves, the shorter wavelengths are associated with higher energy levels. Electromagnetic energy travels in waves, and the length of the wave is inversely proportional to the energy the wave carries. Higher energy, shorter wavelengths. Lower energy, longer wavelengths.