The exact relationship really depends on the type of wave. In the case of electromagnetic waves, a photon with higher energy has a higher frequency, and therefore a lower wavelength. Of course, this says nothing about a wave that consists of many photons. In this case, you can have two waves with the same energy (or more accurately, with the same intensity), but with different wavelengths.
The shorter the wavelength of a wave, the higher its energy.
A wavelength carry energy. Strictly speaking, a wave carries energy. A wavelength is a property of a wave.
The shorter the wavelength of a wave, the higher its energy.
A wavelength doesn't have energy. The wave does. The details depend on the type of wave. Assuming an electromagnetic wave, you have to multiply the frequency by Plank's constant. To find the frequency, divide the speed of the wave by the wavelength.
Energy does not effect WAVELENGTH, it effects the AMPLITUDE of the Wave.
The shorter the wavelength of a wave, the higher its energy.
A wavelength carry energy. Strictly speaking, a wave carries energy. A wavelength is a property of a wave.
The shorter the wavelength of a wave, the higher its energy.
A wavelength doesn't have energy. The wave does. The details depend on the type of wave. Assuming an electromagnetic wave, you have to multiply the frequency by Plank's constant. To find the frequency, divide the speed of the wave by the wavelength.
Energy of light photons is related to frequency as Energy = h(Planck's constant)* frequency Frequency = velocity of wave / wavelength So energy = h * velocity of the wave / wavelength
Energy does not effect WAVELENGTH, it effects the AMPLITUDE of the Wave.
If you are talking about an electromagnetic wave; energy is proportional to frequency (E=hf), and frequency is inversely proportional to wavelength (wavelength equals velocity divided by frequency). So when the wavelength is increased, the energy is decreased.
Wavelength.
shorter wavelength
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.
Both a wave with long wavelength and a wave with short wavelength can have a lot of energy, or little energy.Specifically in the case of electromagnetic waves, a short wavelength corresponds to high energy - but this is only the energy PER PHOTON. But note that each of such waves usually consists of a lot of photons.
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.