Half power frequencies for a circuit shown in figure are 100 rad/s and 500 ead/s the value of product LC`( in s^2/(rad)^2)`

Half power frequencies foe a circuit shown in the figure are 100 rad/s and 500 rad/s. The value of the product LC is (epsilon=epsilon_0 sin omega t)

In the circuit shown in figure find V_(ab) at 1 s

In the circuit as shown in the figure, switch S is added at t=0. Then:

As the switch S is closed in the circuit shown in figure, current passed through it is.

On closing the switch S in the circuit as shown in the figure, the reading of the galvanometer G

Speed of an object moving in cirular path of radius 10 m with angular speed 2 rad/s is

For an A.C. circuit shown in figure, show that the resonance frequency is given by f=(1)/(2 pi) sqrt((1)/(LC)-(R^(2))/(L^(2))) .

A composite rod comprising two rods of mass m and 2m and each of length l = 1 m as shown in the figure. Assume omega = 10 rad//s and m = 1 kg , the KE of the rotating composite rod is. .

A simple pendulum of length 1 m is oscillating with an angular frequency 10 rad//s . The suopport of the down with a small angular frequecy of 1 rad//s and an amplitude of 10^(-2)m . The relative changes in the angular frequency of the pendulum is best given by.

A block of mass 1kg is placed on the periphery of a rotating rough circular table of radius 50cm as shown in the figure.Angular velocity of the table is 4 rad/s.The minimum value of coefficient of friction between the contact such that there is no relative slipping is (g= 10 m/s^2)