In the rectangle shown below, the two corners have charges `q_(1)=-5 muC and q_(2) = +2.0 muC`. The work done in moving a charge `+3.0 muC` from B to A 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) )

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

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

The left most capacitor is uncharged. The other two capacitors carry charges q_1 = 8muC and q_2 = 10muC . Now switch S is closed. Find the final charge on left most capacitor.

Three charges are placed at the vertices of an equilateral triangle of side 10 cm. Assume q_(1)=1 muC,q_(2)=-2 muC and q_(3)=4 muC . Work done in separating the charges to infinity is

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

In the circuit given below, the charge in muC , on the capacitor having 5 muF is

A charge q_(1) = 2.00 mu C is located at the origin , and a charge q_(2) = - 6.00 mu C is located at ( 0,3.00 ) m . (a) Find the total electric potential due to these charges at the point P hose coordinates are ( 4.00,0) m . ( b) Find the change in potential energy of the system of two charges plus a charge q_(3)= 3.00 muC as the latter charge moves from infinity to point P .

Two charges q_(1) = 3.0 mu C and q_(2) = - 4.0 mu C initiallly are separated by a distance r_(0) = 2.0 cm . An external agent moves the charges until they are r_(f) = 5.0 cm apart. How much work is done by the electric field in moving the charges from r_(0) to r_(f) ? Is the work positive or negative ?

Suppose that three point charges q_(a), q_(b) and q_(c) are arranged at the vertices of a right -angled triangle as shown . What is the absolute electric potential at the position of the third charge if q_(a)=- 6.0 mu C , q_(b)=+4.0muC , q_(c)=+2.0 mu C , a= 4.0 m and b=3.0 m ? Suppose that the third charge which is initially at rest is repelled to infinity by the combined electric field of the other two charges which are held fixed . What is the final final kinetic energy of the third charge ?