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The inverse of frequency.

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Gerardo Glover

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3y ago

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Related Questions

What is the time period of each oscillation?

The time period of each oscillation is the time taken for one complete cycle of the oscillation to occur. It is typically denoted as T and is measured in seconds. The time period depends on the frequency of the oscillation, with the relationship T = 1/f, where f is the frequency of the oscillation in hertz.


Mass and pendulum oscillation?

Mass oscillation time period = 2 pi sq rt. (m/k) Pendulum oscillation time period = 2 pi sq rt. (l/g)


Does the time period of oscillation of spring mass system depends on the displacement from the equilibrium position?

No, the time period of oscillation of a spring-mass system does not depend on the displacement from the equilibrium position. The period of oscillation is determined by the mass of the object and the stiffness of the spring, but not the displacement.


What is the time taken for a oscillation called?

The time taken for one complete oscillation is called the period. It is typically measured in seconds.


What is the SI unit of period of oscillation?

The SI unit for period is seconds and the symbol is t (because the period is a time measurement, it is expressed in the SI unit seconds)


If a pendulum takes 32 seconds to complete 20 oscillations. Calculate the time period?

Time period per oscillation=32/ 20=1.6 sec per oscillation.


What is the time for one complete wave oscillation?

The time for one complete wave oscillation is known as the period. It is the time it takes for a wave to complete one full cycle. The period is typically measured in seconds.


What is the unit of Oscillation period?

The unit of oscillation period is seconds (s).


What is time taken by an object to complete one oscillation called?

time period


What is the period of vertical spring oscillation?

The period of vertical spring oscillation is the time it takes for the spring to complete one full cycle of moving up and down.


What is the relation between time period and frequency of oscillation?

The time period of oscillation is the time taken to complete one full cycle of oscillation, while frequency is the number of cycles per unit time. They are reciprocals of each other, with frequency being the inverse of the time period (frequency = 1/time period). This means that as the time period decreases, the frequency increases, and vice versa.


Does the time period of oscillation depends on the displacement from the equilibrium position?

No, the time period of oscillation does not depend on the displacement from the equilibrium position. The time period is only affected by the mass and stiffness of the system and is constant for a given system. The amplitude of oscillation does affect the maximum displacement from the equilibrium position.