A pendulum bob of mass m , carrying a charge q is at rest with its string making an angle ` theta ` with the vertical in a uniform horizontal electric field E. the tension in the string is

One end of a string of length L and cross sectional area A is fixed to a support and the other end is fixed to a bob of mas m. The bob is revolved in a horizontal circle of radius r with an angular velocity omega such that the string makes an angle theta with the vertical. Young's modulus is Y. The tension T in the string is

A particle of mass 100 g is suspended from the end of a weightless string of length 100 cm and is rotated in a vertical plane. The speed of the particle is 200 cm*s^(-1) when the string makes an angle of theta =60^@ with the verctcal. Determine (i) the tension in the string when theta =60^@ and

One end of a string of length L and cross sectional area A is fixed to a support and the other end is fixed to a bob of mas m. The bob is revolved in a horizontal circle of radius r with an angular velocity omega such that the string makes an angle theta with the vertical. Young's modulus is Y. The increase DeltaL in length of the string is

the bob of simple pendulum is relasesd when string makes an angle theta with the vertical . If m be the mass of the bob then find the tension when the bob is at the bottiommost position .

The plane of a suspended current carrying rectangular coil makes an angle theta with the direction of uniform magnetic field. Calculate the torque acting on the coil.

The bob of a pendulum of weight 80 mg carries a charge of 2xx10^(-8) C. The bob is at rest in a horizontal electric field of magnitude 2xx10^(4)V.m^(-1) . Determine the tension in the string and angle of the string with the vertical. Given, g=9.8m.s^(-2) .

A simple pendulum of length L swings in a vertical plane. The tension of the string when it makes an angle theta with the vertical and the bob of mass m moves with a speed v is (g is the gravitational acceleration)