The amplitude is the maximum displacement.
The frequency is the number of peaks (or troughs) that occur in unit time (usually a second).
Frequency does not have a direct effect on the amplitude of a wave. The amplitude of a wave is determined by the energy of the wave, while frequency refers to the number of wave cycles in a given period of time. Changing the frequency of a wave will not alter its amplitude.
The energy of a standing wave is directly proportional to its amplitude and frequency. A higher amplitude or frequency of a standing wave corresponds to a greater amount of energy.
No, amplitude is not directly related to frequency. Amplitude refers to the intensity or magnitude of a wave, while frequency refers to the number of times a wave oscillates in a given period. Changing the frequency of a wave will not automatically change its amplitude.
No, lower frequency does not necessarily mean more energy for amplitude. The energy of a wave is determined by its amplitude, not its frequency. The amplitude of a wave is the height of its peaks and determines the intensity or energy of the wave.
No, amplitude and frequency are independent of each other. Amplitude refers to the intensity or strength of a wave, while frequency refers to the number of complete oscillations of a wave that occur in a given amount of time. Changing the amplitude does not affect the frequency of a wave.
Frequency does not have a direct effect on the amplitude of a wave. The amplitude of a wave is determined by the energy of the wave, while frequency refers to the number of wave cycles in a given period of time. Changing the frequency of a wave will not alter its amplitude.
The energy of a standing wave is directly proportional to its amplitude and frequency. A higher amplitude or frequency of a standing wave corresponds to a greater amount of energy.
No, amplitude is not directly related to frequency. Amplitude refers to the intensity or magnitude of a wave, while frequency refers to the number of times a wave oscillates in a given period. Changing the frequency of a wave will not automatically change its amplitude.
No, lower frequency does not necessarily mean more energy for amplitude. The energy of a wave is determined by its amplitude, not its frequency. The amplitude of a wave is the height of its peaks and determines the intensity or energy of the wave.
No, amplitude and frequency are independent of each other. Amplitude refers to the intensity or strength of a wave, while frequency refers to the number of complete oscillations of a wave that occur in a given amount of time. Changing the amplitude does not affect the frequency of a wave.
The frequency of a wave does not directly affect its amplitude. Amplitude is determined by the energy of the wave, while frequency is the number of complete cycles of the wave that occur in one second. So, a change in frequency would not cause a change in the wave's amplitude.
If the amplitude of a wave is doubled while the frequency remains constant, the speed of the wave will not change. The speed of a wave is determined by the medium through which it is traveling, not by its amplitude or frequency.
The amplitude of the fundamental ('first harmonic') component of the triangular wave is 0.8107 of the whole composite triangle's amplitude. So the composite wave's amplitude is 1.234 times the amplitude of the fundamental. (Both are rounded.) (The amplitudes, not the triangle.)
Amplitude times frequency.
No, increasing the amplitude of a wave does not change its frequency. Frequency is determined by the number of complete oscillations or cycles of the wave that occur in a given time period, and this remains constant regardless of the wave's amplitude.
Frequency has no effect on teh amplitude of a wave.
When the amplitude and frequency of a wave are both increased, the wavelength remains constant. Amplitude affects the intensity or loudness of the wave, while frequency determines the pitch. Therefore, changing the amplitude and frequency does not alter the wavelength of the wave.