Question

what is the time period of a particle that is vibrating at a frequency of 10hz ?

Answer 1

The time period of a particle(t) is 0.1 second.

Explanation:

Given,

Frequency(f) = 10 Hz

To find, the time period of a particle(t) = ?

We know that,

The time period of a particle(t) = $\dfrac{1}{Frequency(f)}$

⇒ $t=\dfrac{1}{f}$

⇒ $t=\dfrac{1}{10 Hz}$

$=\dfrac{1}{10}$ second

= 0.1 second

The time period of a particle(t) = 0.1 second

Hence, the time period of a particle(t) is "0.1 second".

Answer 2

The time period of a particle that is vibrating at a frequency of 10hz is 0.1 second.

Explanation:

The frequency of a certain particle is given as 10 Hertz.

Now, we need to find out the time period of movement of that particle.

Since we are given the frequency of a certain particle which means the number of times in one second for particular time period the particle is moving or vibrating to and fro.

To find out the time period of that particle that is the time taken for one vibration would be just the opposite of reciprocal of the given frequency.

That the given frequency is 10 hertz.

Time period of a particle(t) = $\frac{1}{frequency\ (f) }$

t = $\frac{1}{f}$

= $\frac{1}{10\ Hz}$

= 0.1 second

Hence, the time period would be 1/10 hertz which is equal to 0.1 second.

To know more:

The time period of a particle undergoing shm is 16 seconds it starts motion from the mean position after 2 second its velocity 0.4 m per second the amplitude is

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