Consider the situation of the previous problem. Consider the fastest electron emitted parallel to the large metal plate. Find the displacement of this electron parallel to its initial velocity before it strikes the large metal plate.

Consider the situation of the previous problem. Define displacement resistance (R_d = V/i_d) of the space between the plates where V is the potential difference between the plates and i_d is the displacement current. Show that R_d varies with time as (R_d)= (R(e^(t/tau)-1).)

A parallel plate capacitor is having plate area equal to A and constant current I is flowing to charge the capacitor . Consider a circle of radius r , parallel to the plates of capacitor . Find the displacement current through the surface enclosed by this circle .Assume size of the circle is smaller than of the size of plate of capacitor .

A parallel plate capacitor is having plate area equal to A and constant current I is flowing to charge the capacitor . Consider a circle of radius r, Parallel to the plates of capacitor . Find the displacement current through the surface enclosed by this circle .Assume size of the circle is smaller than that of the size of plate of capacitor .

An electron (charge = e, mass = m) is projected horizontally into a uniform electric field produced between two oppositely charged parallel plates, as shown in figure. The charge density on both plates is +- sigma C//m^2 and separation between them is d. You have to assume that only electric force acts on the electron and there is no field outside the plates. Initial velocity of the electron is u, parallel to the plates along the line bisecting the gap between the plates. Length of plates is 2L and there is a screen perpendicular to them at a distance L. (i) Find s if the electron hits the screen at a point that is at same height as the upper plate. (ii) Final the angle q that the velocity of the electron makes with the screen while it strikes it.

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 large conducting plates are placed parallel to each other with a separation of d between them. An electron starting from rest near one of the plates reaches the other plate in time t. If e is the charge on the electron and m is its mass, then the surface charge density on the inner surface is

A metel plate of thickness 2 cm is introduced between the plates of a parallel plate air capacitor having a plate separation of 6 cm. what is the ratio of the capacities of the capacitor before and after introducing the metal plate?

Consider a parallel plate capacitor is charged by a constant current I, with plate area A and separation between the plates d. Consider a plane surface of area A//4 parallel to the plates and drawn symmetrically between the plates. Find the displacement current through this area.