The expression for the energy of a mechanical wave is
E = 2 m pi2 nu2 a2
m - mass of the particle in the medium
nu - frequency of the wave
a - amplitude of wave.
So to increase the energy we may increase the frequency or amplitude of wave.
If m is larger then more energy is required to have the same amplitude. Hence with increased mass more energy will be stored.
When the wavelength of a wave gets higher the speed decreases. This is a studied in science.
Increase
As wavelength decreases the wave diffraction will decrease, so the curve formed will be less noticeable. The sharpness of the diffraction will decrease that you can see will lessen.
You can see how the frequency of a wave changes as its wavelength changes by using the formula Velocity= wavelength x frequencyIf for example we are talking about the speed of light (Which does change) and the wavelength is reduced, then the frequency has to increase in order to balance out to the speed of light.Another way to view it is like this:The frequency of a wave changes with the wavelength by what happens to the wavelength. For instance, if the wavelength is doubled, the frequency is halved, and vise versa.
The characteristics of a sound wave is the Amplitude, Frequency, Wavelength, time period, and velocity. The sound wave itself is a longitudinal wave that shows the rarefactions and compressions of a sound wave.
frequency of wave is inversely proportional to wavelength
If you shorten the wavelength of a wave while keeping the amplitude constant, the frequency of the wave will increase. This is because wavelength and frequency are inversely proportional in a wave (frequency = speed of wave / wavelength).
Provided the speed of the wave remains constant, as we increase the frequency of wave then wavelength decreases. Because frequency and wavelength are inversely related.
If you increase the frequency of a periodic wave, the wavelength would decrease. This is because wavelength and frequency are inversely proportional in a wave: as frequency goes up, wavelength goes down.
Velocity = Frequency * Wavelength. If the wavelength increases and the frequency stays the same, then the speed of the wave will increase.
The wavelength would increase by the same proportion.
When you decrease the wavelength of a wave, its frequency and energy increase. This is known as blue shift and is common in light waves. Conversely, when you increase the wavelength of a wave, its frequency and energy decrease. This is known as red shift and is also observed in light waves.
An increase in energy would generally lead to a decrease in wavelength and an increase in amplitude for a wave. Conversely, a decrease in energy would result in an increase in wavelength and a decrease in amplitude. This is because energy is directly related to the frequency and intensity of a wave, which in turn impacts its wavelength and amplitude.
When the wavelength of a wave gets higher the speed decreases. This is a studied in science.
If you increase the wavelength while keeping the wave velocity constant (since velocity = frequency x wavelength), the frequency of the wave will decrease proportionally. This relationship is described by the equation v = fλ.
Yes.
If the velocity of a wave increases while the wavelength stays the same, the frequency of the wave will also increase. This is because the speed of a wave is determined by the product of its frequency and wavelength. Therefore, if the speed increases and the wavelength remains constant, the frequency must also increase.