Consider a charged conductor resting on an insulating stand a shown below. At point X, value of the charge density is `sigma`, the potential is V and the field strenght is E. what will be the values of same respectively at Y?

Five conductors are meeting at a point x as shown in the figure. What is the value of current in fifth conductor?

At a certain distance from a point charge the electric potential is 200V and electric field is 200 V/m. What is this distance?

40 J of work is done to move an electric charge of 5 C from a point where potential is 20 V to another point, where potential is V volt. Find the value of V.

Electric field intensity at a point in between two parallel sheets with like charges of same surface charge densities (sigma) is

Two metal spheres, one of radius R and the other of radius 2 R respectively have the same surface charge density sigma . They are brought in contact and separated. What will be the new surface charge densities on them?

Set up an arrangement of three point charges +q, +2q, and +2xq separated by equal finite distances so that electric potential energy of the system is zero. Find the value of x.

A square is centred at origin having sides parallel to x-axis and y-axis . It has surface charge density sigma(x,y)=sigma_0 within its boundaries. The measure of charge of each side 2a of square is Q. what is the total charge on the square?

Show that electric field at the surface of a charges conductor is, vecE=sigma/E_0 hatn where sigma is the surface charge density and hatn is a unit vector normal to the surface in the outward direction.

A point particle of mass m, moves long the uniformly rough track PQR as shown in figure. The coefficient of friction, between the particle and the rough track equals mu . The particle is released, from rest from the point P and it comes to rest at a point R. The energies, lost by the ball, over the parts, PQ and QR, of the track, are equal to each other, and no energy is lost when particle changes direction from PQ to QR. The value of the coefficient of friction mu and the distance x (=QR) , are, respectively close to:

Figure shows a potentiometer with a cell of 2.0 V and internal resistance 0.40 Omega maintaining a potential drop across the resistor wire AB. A standard cell which maintains a constant emf of 1.02V (for very moderate currents upto a few mA) gives a balance point at 67.3 cm length of the wire.To ensure that very low current drawn from the standard cell,a very high resistance of 600 k Omega is put in series with it, which is shorted close to the balance point. The standard cell is then replaced by a cell of unknown emf E and the balance point found similarly,turns out to be at 82.3 cm length of the wire . What is the value of E ?