The time period (T) of a physical pendulum depends on the physical quantities 'I' moment of inertia `(kgm^(2))`, 'm' mass (kg), 'g' acceleration due to gravity `(m//s^(2))`. 'l' length (m). Then which of following may be correct

The time period Of oscillation of a simple pendulum depends on the following quantities Length of the pendulum (l), Mass of the bob (m), and Acceleration due to gravity (g) Derive an expression for Using dimensional method.

Which of the following physical quantity has unit kg m^(2)//s ?

Derive an expression for time period (t) of a simple pendulem, which may depend upon : mass of bob (m), length of pendulum (I) and acceleration due to gravity(g).

The time period of a simple pendulum on the surface of the Earth is T_1 and that on the planet Mars is T_2 . If T_2 < T_1 , then acceleration due to gravity on Mars is

The time period T of a simple pendulum depends on length L and acceleration due to gravity g Establish a relation using dimensions.

Name the physical quantity whose SI unit is : (a) m/s " " m// s^(2)

A simple pendulum of length 'L' has mass 'M' and it oscillates freely with amplitude energy is (g = acceleration due to gravity)

Name two physical quantities which have dimesion [M^1L^(-1)T^(-2)].

The time period of a simple pendulum is given by T = 2pi sqrt((l)/(g)) where 'l' is the length of the pendulum and 'g' is the acceleration due to gravity at that place. (a) Express 'g' in terms of T (b) What is the length of the seconds pendulum ? (Take g = 10 m s^(-2) )