Among the many categories of radiation in the electromagnetic spectrum, the radiation with the lowest frequency
(longest wavelength) carries the least energy. This might be the audio-frequency radiation from speaker-wires,
the 60-Hz radiation from utility power lines or AC line-cords within the home, etc.
The energy of the wave pulse depends on wave length and frequency.
A wave transports energy. The greater the energy, the greater the amplitude of the wave.
The answer is true. The greater the energy the greater the amplitude.
The type of wave that has the least amount of energy is the longitudinal wave. In contrast, the wave with the most amount of energy is a seismic wave.
wave transmitt energy the the force that the wave has
Carbon
it is a wave that is formed by energy
In general, higher frequency waves carry more energy than waves of lower frequency if their amplitudes are equal. This is absolutely true of electromagnetic waves, and can probably be most easily demonstrated there.
Any wave carries energy.
The energy of the wave pulse depends on wave length and frequency.
A wave transports energy. The greater the energy, the greater the amplitude of the wave.
The answer is true. The greater the energy the greater the amplitude.
The type of wave that has the least amount of energy is the longitudinal wave. In contrast, the wave with the most amount of energy is a seismic wave.
wave transmitt energy the the force that the wave has
What are the advantages and disadvantages of wave energy
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.
Yes, wave energy (hydro-power) is a renewable source of energy.