The plates each of area `A` of a parallel plate caoacitor are given charges `Q` and `-Q`. The plates are joined by a non-conducting spring of force constant `k`. The natural length of the spring is `d`, the inital separation between the plates. The left plate is connected to a vertical wall through a massless non-conducting rope and the right plate is connected to a block of mass `m` through similar rope. Assume the pulley to be massless, neglect dielectric effect of the spring and `Q^(2) lt 2mAepsilon_(0)g`
If `Q^(2)=2mAepsilon_(0)g`, the elongation of the string is

The plates each of area A of a parallel plate caoacitor are given charges Q and -Q . The plates are joined by a non-conducting spring of force constant k . The natural length of the spring is d , the inital separation between the plates. The left plate is connected to a vertical wall through a massless non-conducting rope and the right plate is connected to a block of mass m through similar rope. Assume the pulley to be massless, neglect dielectric effect of the spring and Q^(2) lt 2mAepsilon_(0)g If T be the time period of oscillation, then

The plates each of area A of a parallel plate caoacitor are given charges Q and -Q . The plates are joined by a non-conducting spring of force constant k . The natural length of the spring is d , the inital separation between the plates. The left plate is connected to a vertical wall through a massless non-conducting rope and the right plate is connected to a block of mass m through similar rope. Assume the pulley to be massless, neglect dielectric effect of the spring and Q^(2) lt 2mAepsilon_(0)g . If the block is released from rest, the maximum elongation of the string is

The plates of a parallel plate capacitance 1.0 F are separated by a distance d =1 cm. Find the plate area .

Each plate of a parallel plate capacitor has a charge q on it. The capacitor is now connected to a battery. Now,

Find out the capacitance of parallel plate capacitor of plate area A and plate separation d.

Two charged capacitors have their outer plates fixed and inner plates connected by a spring of force constant 'K'. The charge on each capacitor is q. find the extension in the spring at equilibrium

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The electrostatic force between the metal plate of an isolated parallel plate capacitro C having charge Q and area A , is