The formula for time period T for a loaded spring, T= 2π .Does the time period depend on lenght of the spring ?

The time period of a loaded spring on earth is 6s . On the surface of moon, the time period of the same loaded spring will be

The time period T is found to depend upon L as

Explain the oscillations of a loaded spring and find the realtions for the time period and frequency in case of (i) horizontal spring (ii) vertical spring.

The time period (T) of a spring mass system depends upon mass (m) & spring constant (k) & length of the spring (l)[k=("Force")/("length")] . Find the relation among T, m , l & k using dimensional method.

What will be the change in time period of a loaded spring, when taken to moon ?

When a boy is playing on a swing in the sitting position , the time period of oscillations of the swing is T. If the boy stands up , the time period of oscillation of the spring will be

Time period of a spring mass system can be changed by

The time period of a simple pendulum in a stationary train is T. The time period of a mass attached to a spring is also T. The train accelerates at the rate 5 ms^(-2) . If the new time periods of the pendulum and spring be T_(p) and T_(s) , respectively. Then,

A particle executes simple harmonic motion under the restoring force provided by a spring. The time period is T. If the spring is divided in two equal parts and one part isused to continue the simple harmonic motion, the time period will