Not at all. There's no direct relationship or connection between frequency and amplitude.
velocity=wavelength*frequency. You do the math
it doesnt affect the amplitude as the mass and length remain constant
how does the size of a ball on a plunger affect the amplitude of a wave
Because there is a relationship between the amplitude of a sound wave and loudness of a sound.
Destructive interference affect the amplitude of a wave because two identical waves with similar amplitude and wavelength, arrive in anti phase, leading to a zero displacement.
velocity=wavelength*frequency. You do the math
It reduces amplitude.
it doesnt affect the amplitude as the mass and length remain constant
how does the size of a ball on a plunger affect the amplitude of a wave
Because there is a relationship between the amplitude of a sound wave and loudness of a sound.
Destructive interference affect the amplitude of a wave because two identical waves with similar amplitude and wavelength, arrive in anti phase, leading to a zero displacement.
No. A wave travelling in the opposite direction would have its amplitude increased.
No it doesn't. The amplitude is the distance of the crest/trough from the rest axis. The frequency is the rate at which the wave "pulsates". If the waves are closer together, then the frequency is increased. If the waves are bigger in width, the amplitude is increased.
Amplitude decides the intensity (loudness) of the sound. Intensity is directly proportional to the square of the amplitude of vibration.
Frequency has no effect on teh amplitude of a wave.
It doesn't. Amplitude and wavelength are independent variables.
The amplitude is increased by strong surface winds.