The distnace between the plates of a parallel plate capacitor is 3 mm the potential difference applied is `3xx10^(5)` V. If an electron travels from one plate to another the change in its potential energy is

The space between the plates orf a parallel plate capacitor is completely filled with a meterail of resistaivity 2xx10^(11) Omegam and dielectric constant 6. Capacity of the capacitor with the given dielectric medium between the paltes is 20uF. Find the leakage current if a potential difference 2500 V is applied across the capacitor.

The space between the plates of a parallel plate capacitor is completely filled with a material of resistivity 2 xx 10^(11)Omega -m and dielectric constant 6. Capacity of the capacitor with the given dielectric medium between the plates is 20nF . Find the leakage current if a potential difference 2500 V is applied across the capacitor.

The' distance between the plates of a parallel plate capacitor is d . A metal plate of thickness d//2 is placed between the plates. What will e its effect on the capacitance.

Two protons A and B are placed in between the two plates of a parallel plate capacitor charged to a potential difference V as shown in the figure. The forces on the two protons are identical.

The separation between the plates of a parallel-plate capacitor is 2 mm and the area of its plates is 5cm^(2) . If the capacitor is charged such that it has 0.01J energy stored in it, the electrostatic force of attraction between its plates is _______N.

The voltage between the plates of a parallel plate capacitor of capacitance 1.0muF is changing at rate of 1.0 V//s . Find displacement current

The force between the plates of a parallel plate capacitor of capacitance C and distance of separation of the plates d with a potential difference V between the plates, is.

In Millikan's oil drop experiment an oil drop of radius r and change Q is held in equilibrium between the plates of a charged parallel plate capacitor when the potential change is V . To keep a drop radius 2r and with a change 2Q is equilibriu between the plates the potential difference V' required is:

If an electron enters a space between the plates of a parallel plate capacitor at an angle theta_(1) with the plates and leaves at an angle theta_(2) to the plates, the ratio of its kinetic energy while entering the capacitor to that while leaving will be

A parallel plate capacitor charged to potential difference V_0 . The variation of potential V from x= 0 to x= d is best described by