Two parallel plates kept in air `5 cm` apart are at a potential difference of `500 V`. If there be an electron `(ii)` kinetic energy an `(iii)` velocity of the electron, when it reaches the other plate.

The potential difference between two large parallel plates is varied as v = at, a is a positive constant and t is time. An electron starts from rest at t=0 from the plate which is at lower potential. If the distance between the plates is L, mass of electron m and charge on electron -e then find the velocity of the electron when it reaches the other plate.

When a parallel plate capacitor is connected to a source of constant potential difference

A parallel plate air condenser of capacity 4muF is charged to a potential of 1000 V. the energy of the condenser is

An electron enters the region between the plates of a parallel plate capacitor at a point equidistance from either plate. The capacitor plates are 2 xx 10^(-2)m apart and 10^(-1)m long. A potential difference of 300 V is kept across the plates. Assuming that the initial velocity of the electron is parallel to the capacitor plates, calculate the largest value of the velocity of the electrons so that they do not fly out of the capacitor at the other end.

Two plates are 2cm apart, a potential difference of 10 volt is applied between them, the electric field between the plates is

Kinetic energy of an electron accelerated in a potential difference of 100 V is

A parallel plate air filled capacitor having area 40 cm^2 and plate spacing 1.0 mm is charged to a potential difference of 500V. Find (a) the capacitance, (b) the magnitude of the charge on each plate ( c) the stored energy, (d) the electric field between the plates and (e ) the energy density between the plates.

For an isolated parallel plate capacitor of capacitance C and potential difference V, what will be change in (i) charge on the plates (ii) potential difference across the plates (iii) electric field between the plates (iv) energy stored in the capacitor, when the distance between the plates is increased ?

A parallel plate capacitor with air between the plates is charged to a potential difference of 500 V and then insulated. A plastic plate is inserted between the plates filling the whole gap. The potential difference between the plates now becomes 75V. The dielectric constant of plastic is