A parallel plate capacitor is moving with a velocity of `25 ms^-1` through a uniform magnetic field of 4.0T as shown in Fig. If the electric field within the capacitor plates is `175NC^-1` and the plate area is `25xx10^-7m^2`, then the magnetic force experienced by the positive charge plate is

A parallel plate capacitor is moving with a velocity of 25 ms^-1 through a uniform magnetic field of 4T as shown in Fig. If the electric field within the capacitor plates is 400NC^-1 and the plate area is 25xx10^-7m^2 , then the magnetic force experienced by the positive charge plate is

For a charged parallel plate capacitor shown in the figure, the force experienced by an alpha particle will be :

For a charged parallel plate capacitor shown in the figure, the force experienced by an alpha particle will be :

A parallel plate capacitor is constructed with plates of area 0.0280 m^(2) and separation 0.550 mm . Find the magnitude of the charge on each plate of this capacitor when the potential between the plates is 20.1 V

A parallel plate capacitor is constructed with plates of area 0.0280 m^(2) and separation 0.550 mm . Find the magnitude of the charge on each plate of this capacitor when the potential between the plates is 20.1 V

A particle of mass 2 xx 10^-5 kg moves horizontally between two horizontal plates of a charged parallel plate capacitor between which there is an electric field of 200 NC^-1 acting upward. A magnetic induction of 2.0 T is applied at right angles to the electric field in a direction normal to both vec B and vec v. If g is 9.8 ms^-2 and the charge on the particle is 10^-6 C, then find the velocity of charge particle so that it continues to move horizontally