Yes, but I don't remember how.
Low frequency = low pitch = long waves
Amplitude= velocity/frequency Sound velocity is known for many materials, e.g., air The frequency changes, according with: high voice - high frequency (low amplitude) and vice versa
Low amplitude
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.
Frequency and amplitude are not related. Frequency and wavelength are related. The are the inverse of one another.
They're not. The same amplitude can have high or low frequency, and the same frequency can have large or small amplitude.
Low frequency = low pitch = long waves
High frequency and low amplitude.
Amplitude of the (high frequency) Carrier signal is varied with respect to low frequency of message signal is called amplitude modulation. Frequency of the carrier signal is varied with respect to low frequency of message signal is called frequency modulation.
Yes. There's no connection between frequency and amplitude.
Amplitude= velocity/frequency Sound velocity is known for many materials, e.g., air The frequency changes, according with: high voice - high frequency (low amplitude) and vice versa
Of course and vice versa.
Because of their low frequency, long duration, and large amplitude
Low amplitude
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.
Frequency (or equivalently, wavelength) and amplitude. Frequency determines the sound's pitch (high or low). Amplitude is the volume (loud or quiet).
Frequency (low or high sounds) and amplitude (loudness).