Does the time period depend upon the mass, the size and the material of the bob.

What will be the effect on the time period of the pendulum if the mass of the bob is increased for the same length?

A pendulum made of a uniform wire of cross sectional area A has time T. When an additional mass M is added to its bob, the time period changes to T_M . If the Young's modulus of the material of the wire is Y then 1/Y is equal to:

Assertion : If the distance between parallel plates of a capacitor is halved and dielectric constant is made three times, then the capacitance becomes 6 times. Reason : Capacity of the capacitor depends upon the nature of the material between the plates.

The size of a cell depends upon

The bob of a simple pendulum is displaced from its equilibrium position 'O' to a position 'Q' which is at a height 'h' above 'O' and the bob is then released. Assuming the mass of the bob to be 'm' and time period of oscillation to be 2.0s , the tension in the string when the bob passes through 'O' is

The bob of a simple pendulum is displaced from its equilibrium position 'O' to a position 'Q' which is at a height 'h' above 'O' and the bob is then released. Assuming the mass of the bob to be 'm' and time period of oscillation to be 2.0s , the tension in the string when the bob passes through 'O' is

The period P of a simple pendulum is the time for one complete swing. How does P depend on the mass m of the bob, the length l of the string, and the acceleration due to gravity g?

A simple pendulum oscillating in air has period T. The bob of the pendulum is completely immersed in a non-viscours liquid. The density of the liquid is (1)/(16)th of the material of the bob. If the bob is inside liquid all the time, its period of scillation in this liquid is :

Assertion : The binding energy of a satellite does not depend upon the mass of the satellite. Reason : Binding energy is the negative value of total energy of satellite.

What is the effect on the time period of a simple pendulum if the mass off the bob is doubled?