it affects sound because you use amplification to make your sound by using a solid and make it louder.
The wavelength changes inversely with the frequency.
By the amount of time:)
it doesnt affect the amplitude as the mass and length remain constant
The wavelength and frequency affect how the way is perceived. In sound it would affect the pitch that you hear, in the visible light spectrum it would affect what color you see. The amplitude would be how easy it is to perceive, it is the intensity (magnitude) of the wave.
it is the frequency at which the current amplification drops 3dB below its low frequency value.
The transition frequency of a transistor is the frequency in which the transistor will no longer provide any amplification or gain output. The frequency is out of the transistors's range.
it affects sound because you use amplification to make your sound by using a solid and make it louder.
full spectrum frequency response no change in wave shape or phase
Amplification of higher frequency component of modulating signal
The beta cut off frequency is the frequency at which the current amplification of an amplifier transistor drops to three decibels below its value at 1 kilohertz. This is used in electronic engineering.
the amplification factor is a function of β. Higher β causes a higher amplification.
lower mass = higher frequency
Stephen Aelred Herbert has written: 'Low noise amplification and frequency selectivity for the TSAT mobile receiver'
The wavelength changes inversely with the frequency.
Higher frequency increases the energy. Lower frequency decreases the energy.
The speed of a wave doesn't depend on its frequency.