An electric field of magnitude `400 NC^(-1)` can be produced by applying a potential difference of 20 V to a pair of parallel metal plates separated by

An electric field of magnitude 1000 NC ^(-1) is produced between two parallel platees having a separation of 2.0 cm as shown in figure(29.E4) (a) What is the potential difference between the plates? (b) With what minimum speed should an electron be projected from the lower plate in the direction of the field so that it may reach the upper plate? ( c) Suupose the electron is projected from the lower plate with the speed calculated in part (b) . The direction of projection makes an angle of 60@ with the field. Find the mazimum height reached by the electron.

A point charge q produces an electric field of magnitude 2.0 NC^(-1) at a point distant 50 cm from it. From the value of q.

- The plates of a parallel plate capacitor are separated by 1cm .Two parallel sided dielectric slabs of thickness 0.6cm and 0.4cm fill the space between the plates.The dielectric constants of the two slabs are 3 and 5 respectively and a potential difference of 210V is applied across the plates.Electric field in the slab of 0.6cm thick is (k)/(-)times10^(4) V/m .The value of 'k is

The plates of a parallel plate capacitor are separated by 1cm .Two parallel sided dielectric slabs of thickness 0.6cm and 0.4 cm fill the space between the plates.The dielectric constants of the two slabs are 3 and 5 respectively and a potential difference of 210V is applied across the plates.Electric field in the slab of 0.6cm thick is (k)/(2)times10^(4)V/m .The value of k is

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

The plates of a parallel plate capacitor are separated by a distance d = 1 cm . Two parallel sided dielectric slabs of thickness 0. 7cm and 0.3cm fill the space between the plates. If the dielectric constants of the two slabs are 3 and 5 respectively and a potential difference of 440V is applied across the plates. Find (a) The electric field intensities in each of the slabs. (b) The ratio of electric energies stored in the first to that in the second dielectric slab.

A point charge q produces an electric field of magnitude 2NC^(-1) at a point distance 0.25 m from it. What is the value of charge ?