The bob of a simple pendulum executes SHM in water with a period t. The period of oscillation of the bob in air is `t_(0)` . What is the relation between t ant `t_(0)` ?
Given, density of the bob is `(4000)/(3) kg m^(-3)` . Neglect frictional force of water.

The bob of simple pendulum executes SHM in water with a period T, while the period of oscillation of the bob is T_(0) in air. Neglecting frictional force of water and given that the density of the bob is (4000)/(3)kgm^(-3) , find the ration between T and T_(0) .

What is the period of oscillation of a simple pendulum if its bob is made of ice ?

A particle undergoes S.H.M. having time period T . The time taken in 3 /8th oscillation is

A pendulum is suspended in a ligt and its period of oscillation when the lift is stationary is T_(a) . What must be the accleraion of the lift for the period of oscillation of the pendulum to be T_(0)//2 ?

The bob of a simple pendulum performs SHM with period T in air and with period T_(1) in water. Relation between T and T_1 is (neglect friction due to water, density of the material of the bob is = 9/8xx 10^3 (kg)/m^3 , density of water = 10^3(kg)/m^3 )

The matallic bob of a simple pendulum has the relative density rho . The time period of this pendulum is T it the metallic bob is immersed in water the new time period is given by

The matallic bob of a simple pendulum has the relative density rho . The time period of this pendulum is T it the metallic bob is immersed in water the new time period is given by

The bob of a simple pendulum of length L is released at time t = 0 from a position of small angular displacement theta _ 0 . Its linear displacement at time t is given by :

In a simple pendulum the period of oscillation (T) is related to the length of the pendulum (L) as

A body at the end of a spring executes SHM with a period t_(1), while the corresponding period for another spring is t_(2), If the period of oscillation with the two spring in series is T, then