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the wave amplitude increases
idk because im doin homework right now and i have no clue what to put down
idk because im doin homework right now and i have no clue what to put down
the wave amplitude increases
There's no connection between amplitude and frequency. Either one can change, and often does, with absolutely no effect on the other.
the wave amplitude increases
For example, when you have a spring you pull it, and some of it is tight together, and some is spread out. The spread out part is called a Rarefaction and the tight part is compression. The direction it moves is movement of wave, and the opposite side is the movement of coil.
In a spring, squeezing some coils together more tightly causes the nearby coils to be more spread apart. So this is how it increases.
idk because im doin homework right now and i have no clue what to put down
idk because im doin homework right now and i have no clue what to put down
idk because im doin homework right now and i have no clue what to put down
idk because im doin homework right now and i have no clue what to put down
the wave amplitude increases
There's no connection between amplitude and frequency. Either one can change, and often does, with absolutely no effect on the other.
In a spring, squeezing some coils together more tightly causes the nearby coils to be more spread apart
In a spring, squeezing some coils together more tightly causes the nearby coils to be more spread apart. So this is how it increases.
The relationship between the amplitude of muscle response and the voltage of the stimulus is generally linear. As the voltage of the stimulus increases, the muscle response increases in amplitude up to a certain point. Beyond that point, further increases in voltage may not significantly increase the muscle response amplitude or could lead to muscle fatigue or damage.