The path length of oscillation of simple pendulum of length 1 m is 16 cm. Its maximum velocity is (take, `g=pi^(2)m//s^(2)`)

The time period of a simple pendulum of length 9.8 m is

Compare the time periods of two simple pendulums of length 1 m and 16 m at at place.

A simple pendulum 50cm long is suspended from the roof of a acceleration in the horizontal direction with constant acceleration sqrt(3) g m//s^(-1) . The period of small oscillations of the pendulum about its equilibrium position is (g = pi^(2) m//s^(2)) ltbRgt

The time t of a complete oscillation of a simple pendulum of length l is given by the equation T=2pisqrt(1/g) where g is constant. What is the percentage error in T when l is increased by 1%?

The time t of a complete oscillation of a simple pendulum of length l is given by the equation T=2pisqrt(1/g) where g is constant. What is the percentage error in T when l is increased by 1%?

The length of the simple pendulum is 40 cm. Calculate its time period.

A simple pendulum is taken at a place where its separation from the earth's surface is equal to the radius of the earth. Calculate the time period of small oscillation if the length of the string is 1.0m . Take g = pi^(2) m//s^(2) at the surface of the earth.

The periodic time of a simple pendulum of length 1 m and amplitude 2 cm is 5 seconds. If the amplitude is made 4 cm , its periodic time in seconds will be

The time period of oscillation of a simple pendulum is sqrt(2)s . If its length is decreased to half of initial length, then its new period is

Consider a simple pendulum having a bob attached to a string that oscillates under the action of a force of gravity. Suppose that the period of oscillation of the simple pendulum depends on its length (I), mass of the bob (m) and acc. due to gravity (g). Derive the expression for its time period using method of dimensions.