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Height does not affect the period of a pendulum.

Q: How does height affect the period of a pendulum?

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no ,because they are not the same

Yes. Given a constant for gravity, the period of the pendulum is a function of it's length to the center of mass. In a higher gravity, the period would be shorter for the same length of pendulum.

Technically and mathematically, the length is the onlything that affects its period.

no. it affects the period of the cycles.

The period of a pendulum is give approximately by the formula t = 2*pi*sqrt(l/g) where l is the length of the pendulum and g is the acceleration (not accerlation) due to gravity. Thus g is part of the formula for the period.

Related questions

As the length of a pendulum increase the time period increases whereby its speed decreases and thus the momentum decrease.

no.

The period increases as the square root of the length.

no it doesnt affect the period of pendulum. the formulea that we know for simple pendulum is T = 2pie root (L/g)

no ,because they are not the same

Yes. Given a constant for gravity, the period of the pendulum is a function of it's length to the center of mass. In a higher gravity, the period would be shorter for the same length of pendulum.

Technically and mathematically, the length is the onlything that affects its period.

no. it affects the period of the cycles.

The period of a simple pendulum is independent of the mass of the bob. Keep in mind that the size of the bob does affect the length of the pendulum.

It doesn't. Only the length of the pendulum and the strength of the gravitational field alter the period/frequency.

In an ideal pendulum, the only factors that affect the period of a pendulum are its length and the acceleration due to gravity. The latter, although often taken to be constant, can vary by as much as 5% between sites. In a real pendulum, the amplitude will also have an effect; but if the amplitude is relatively small, this can safely be ignored.

A shorter pendulum has a shorter period. A longer pendulum has a longer period.