The correct answer is:
Wave B has more energy: the amplitude of Wave B is double that of Wave A.
The energy of a wave is directly proportional to its amplitude, which represents the maximum displacement or maximum height of the wave from its rest position. In this case, the amplitude of Wave B is double that of Wave A. Therefore, Wave B has more energy.
The wavelength and frequency of a wave do not directly determine its energy. Wavelength represents the distance between two consecutive points of the same phase in a wave, while frequency represents the number of complete cycles of the wave occurring in a given unit of time. While wavelength and frequency are related, they do not directly determine the energy of the wave.
Elaborate on the difference between the energy of the two waves seen here:
Wave A
Wave B
(1 point)
Wave A has more energy than Wave B because the wavelength of Wave A is greater.
Wave B has more energy than Wave A because the frequency of Wave B is greater.
Wave B has more energy: the amplitude of Wave B is double that of Wave A.
1 answer