A uniform electric field E is created between two parallel
., charged plates as shown in figure . An electron
. enters the field symmetrically between the plates with a
. speed `v_(0)'. The length of each plate is l. Find the angle of
. deviation of the path of the electron as it comes out
. of the field.

A proton of mass m and accelerated by a potential difference Vgets into a uniform electric field of a parallel plate capacitor parallel to plates of length 1 at mid-point of its separation between plates. The field strength in it varies with time as E = at, where a is a positive constant. Find the angle of deviation of the proton as it comes out of the capacitor. (Assume that it does not collide with any of the plates.)

An electron gun ejects electrons at an angle of 45^(@) with magnetic field boundary as shown in Fig. Find the angular deviation of electrons as it comes out of field.

A uniform electric field E exists between two oppositely charged plates (Fig. 3.38). What will be the work done in moving a charge q along a closed rectangular path ? .

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.

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

An electron is projected with an initial speed v_(0)=1.60xx10^(6)ms^(-1) into the uniform field between the parallel plates as shown in fig. Assume that the field between the plates is uniform and directed vertically downward, and that the field outside the plates is zero. the electrons enters the field at a point midway between the plates. Mass of electron is 9.1xx10^(-31)kg . The vertical displacement traveled by the proton as it exits the region between the plated is (mass pf proton is 1.67xx10^(-27)kg ).

An electron is projected with an initial speed v_(0)=1.60xx10^(6)ms^(-1) into the uniform field between the parallel plates as shown in fig. Assume that the field between the plates is uniform and directed vertically downward, and that the field outside the plates is zero. the electrons enters the field at a point midway between the plates. Mass of electron is 9.1xx10^(-31)kg . The vertical displacement traveled by the proton as it exits the region between the plated is (mass pf proton is 1.67xx10^(-27)kg ).

A parallel plate capacitor has a uniform electric field E in the space between the the plates. If the distance between the plates is d and area of each plate is A, the energy stored in the capacitor is

A potential difference of 600 volts is applied across the plates of a parallel plate consenser . The separation between the plates is 3mm . An electron projected vertically, parallel to the plates , with a velocity of 2 xx 10^(6) m//sec moves underflected between the plates. Find the magnitude and direction of the magnetic field in the region between the condenser plates. ( Neglect the edge effects). ( Charge of the electron = -1.6xx10^(-19) coulomb)

Force between two conducting large plates , with charges Q and Q/2 as shown in the figure, is (Area of each face of plate =A)