An infinite number of concentric rings carry a charge Q each alternately positive and negative.
Their radii are 1, 2, 4, 8..... meters in gometric progression as shown in the figure. The potential at the centre of the rings will be

Positive and negative charges of 1 muC each are placed at two points as shown in the figure. Find the potential difference between A and B

Charges q, 2q,3q and 4q are placed at the corners A,B,C and D of a square as shown in the following figure. The directon of electric field at the centre of the square is along

Charges q, 2q,3q and 4q are placed at the corners A,B,C and D of a square as shown in the following figure. The directon of electric field at the centre of the square is along

In Fig. infinite conducting rings each having current i in the direciton shown are placed concentrically in the same plane as shown in the figure. The radii of rings are r,2r,2^2r,2^3r,......,(oo) . The magnetic field at the centre of rings will be

In Fig. infinite conducting rings each having current i in the direciton shown are placed concentrically in the same plane as shown in the figure. The radii of rings are r,2r,2^2r,2^3r,......,(oo) . The magnetic field at the centre of rings will be

An infinite number of charges each q are placed in the x-axis at distances of 1, 2, 4, 8, ………meter from the origin. If the charges are alternately positive and negative find the intensity of electric field at origin.

Two circular rings A and B each of radius a=30cm are placed co-axially with their axes horizontal in a uniform electric field E=10^(5)N//C directed vertically upward as shown in the figure. The distance between the centers of these rings A and B is h=40cm . Ring A has a positive charge q_(1)=10muC while ring B has a negative charge of magnitude q_(2)=20muC . A particle of mass m = 100 gm and carrying a positive charge q=10muC is released from rest at the centre of the ring A. Calculate its velocity when it has moved a distance 40 cm.

Two thin wire rings each having radius R are placed at distance d apart with their axes coinciding. The charges on the two are +Q and -Q . The potential difference between the centre so the two rings is

Three concentric spherical shells A, B and C having uniformly distributed total charges +Q, -2Q and +Q respectively are placed as shown. The potential at the centre will be -

In an isolated parallel plate capacitor of capacitance C the four surfaces have charges Q_(1), Q_(2), Q_(3) and Q_(4) as shown in the figure. The potential difference between the plates is :