In the given figure the capacitor of plate area `A` is charged upto charge `q`. The ratio of elongations (neglect force gravity) in springs `C` and `D` at equilibrium position is.
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In the given figure a capacitor of plate are A is charged upto charge q . The mass of each plate is m_(2) . The lower plate is rigidly fixed. The value of m_(1) if the system remains in equilibrium is. .

In a parallel-plate capacitor of plate area A , plate separation d and charge Q the force of attraction between the plates is F .

Two large insulating plates having surface charge densities + sigma and - sigma are fixed some distance apart in a gravity -free region and two ideal insulating springs of force constant k are connected to the plates as shown in the figure. A particle of charge q and mass m which is attached to the junction of the spring is released from rest, then the partice will cross its equilibrium position with a speed

In a parallel plate capacitor with plate area A and charge Q, the force on one plate because of the charge on the other is equal to

In the given LC circuit,if initially capacitor C has charge Q on it and 2C has charge 2Q. The polar ar as shown in figure. Then after closing switch S and t=0

Consider a parallel plate capacitor having charge Q. Then,

Two charged capacitors have their outer plates fixed and inner plates connected by a spring of force constant k. The magnitude of charge on each capacitor is q and sign of charge on each capacitor is q and sign of charge is shown in figure. Find the extension in the spring at equilibrium.

A air filled parallel plate capacitor having circular plates of diameter D is given a charge Q.The magnitude of the force acting between plates is

One plate of a capacitor is fixed, and the other is connected to a spring as shown in. Area of both the plates is A In strady state (equilibrium), separation between the plates is 0.8d (spring was unstretched , and the distance between the plates was d when capacitor was uncharged). The force conntant of the spring is approximately.

A capacitor A of capacitance 4muF is charged to 30V and another capacitor B of capacitance 2muF is charged to 15V . Now, the positive plate of A is connected to the negative plate of B and negative plate of A to the positive plate of B . find the final charge of each capacitor and loss of electrostatic energy in the process.