Find the work done in taking a charge `100muC` from C & D.

Three cahrges each +q , are placed at the corners of an isosceles trinagle ABC of sides BC and AC, 2a, D and E are the mid-points of BC and CA . The work done in taking a charge Q from D to E is

Three cahrges each +q , are placed at the corners of an isosceles trinagle ABC of sides BC and AC, 2a, D and E are the mid-points of BC and CA . The work done in taking a charge Q from D to E is

In the rectangle, shown below, the twp corners have charges q_(1)=-5muC and q_(2)=+ 2.0 muC . The work done in moving a charge +3.0 muC from B to A is (take 1//4 pi epsilon_(0)=10^(10)"N-m"^(2)//C^(2) )

Find the electric work done in bringing a charge q from A to B in a sphere of charge Q distributed uniformly throughout its volume. .

a. A circle is drawn with center as a charge +q. What is the work done in moving a charge +q from B to C along the circumferebce of the circle ? B In the above question, if the charge +q is first taken from B to A and then from A to C, on which path is the magnitude of work greater?

A dipole of 2muC charges each, consists of the positive charge at the point P (1, -1) and the negative charge is placed at the point Q(-1, 1). The work done in displacing a charge of +1muC from point A(-3,-3) to B (4, 4) is

Consider the situation of figure . The work done in taking a point charge form P to A is W_A from P to B is W_B from P to C is W_C.

A charge of 5 mu C is placed at the center of a square ABCD of side 10 cm . Find the work done ("in" mu J) in moving a charge of 1 mu C from A to B.

The work done in taking a unit positive charge from P to A is W_A and P to B is W_B . Then .

A point charge +q is placed at origin O . The work done in taking another point charge -q from the point A to point B along the circular arc as shown in the figure is .