The arrangement of parallel conducting plates shown in are of the same surgface area `A=10 cm^(2)`. A battery of `E=10V` is connected aross the kends `A` and `B`. Plate 2 is slowly moved upward by some exteral force.
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find the position of plate at which the energy stored in the system is minimum. Also, find this mimimum energy Take `epsilon_(0)=8.8xx10^(-12)Fm^(-1)`.

Three plates A,B and C each of area 0.1m^(2) are separated by 0.885 mm from each other as shown in the figure. A 10 V battery is used to charge the system. The enegry stored in the system is

The plates of a parallel plate capacitor have an area of 90cm^(2) and each are separated by 2mm. The capacitor is charged by connecting it to a 400 V supply. Then the energy density of the energy stored (in Jm^(-3) ) in the capacitor is (take epsi_(0)=8.8xx10^(-12)Fm^(-1) )

Each of the three plates shown in figure has an area of 200 cm^2 on one side and the gap between the adjacent plates is 0.2 mm. The emf of the battery is 20V. Find the distribution of charge on various surfaces of the plates. What is the equivalent capacitance of the system between the terminal points?

The electrostatic potential energy between two identical nuclei produced in the fission on of ._(92)^(238)U at the moment of their separation is x then find x//180 . Given R_(0)=1.3xx10^(-15)m and epsilon_(0)=8.85xx10^(-12)Fm^(-1) .

Each plate of a parallel plate air capacitor has area S=5xx10^(-3) m^(2) and the distance between the plates is d=8.80 mm . Plate A has positive charge q_(1)= +10^(-10) C , and plate B has charge q_(2)=+2xx10^(-10) C . A battery of emf E=10 V has its positive terminal connected to plate A and the negative terminal to plate B . (Given epsilon_(0)=8.8xx10^(-12) Nm^(2) C^(-2)) . Energy supplied by the battery is.

Each of the plates shown in figure ( 31- E19 ) has serface area (96/epsilon_0)xx 10 ^(-12) Fm on one side and the seperation between the consecutive plates is 4.0 mm. The emf of the bettery connected is 10 volts . Find the magnitude of the charge supplied by the bettery to each of the plates connected to it .

A parallel -plate capacitor with the plate area 100cm^2 and the separation between the plate 1.0cm is connected across a battery of emf 24 volts .Find the force of attraction between the plates.

Each plate of a parallel plate air capacitor has area S=5xx10^(-3) m^(2) and the distance between the plates is d=8.80 mm .Plate A has positive charge q_(1)=+10^(-10) C , and plate B has charge q_(2)=+2xx10^(-10) C . A battery of emf E=10 V has its positive terminal connected to plate A and the negative terminal to plate B. (Given epsilon_(0)=8.8xx^(12) Nm^(2) C^(-2)) . Charge supplied by time the battery is .

A parallel plate capicitaor with plates of area 1m^2 each, are at a separation of 0.1 m. If the electric field between the plates is 100 N//C , the magnitude of charge on each plate is : (Take epsilon=8.85xx10^-12(C^2)/(N-m^2) )

A parallel-plate capacitor with plate are 20cm^(2) and plate separation 1.0mm is connected to a battery .The resistance of the circuit is 10k(Omega) .Find the time constant of the circuit.