Find the potential of point P

In the given circuit both diodes are ideal having zero forward resistance and built-in potential of 0.7 V. Find the potential of point E in volts.

Electric charge Q is uniformly distributed around a thin ring of radius a. find the potential a point P on the axis of the ring at a distance x from the centre of the ring .

The arrangement shows a part of complete circuit . The potentials at points A and B are V_(1) and V_(2) respectively . Find the potential at point P . Strategy : The two capacitors C_(1) and C_(2) are connected in series . Therefore the charge on both of the capacitors is same. Let the potential at P is V.

The arrangement shows a part of complete circuit. The potentials at point A and B are V_(1) and V_(2) respectively . Find the potential at point P. Strategy : The two capacitors C_(1) and C_(2) are connected in series . Therefore the charge on both of the capacitors is same . Let the potential at P is V .

A cavity is taken out from a uniform conducting sphere. Inside the cavity a dipole is placed as shown in the figure. Find the potential at point P (in Volt). ( q=10^(-8)C , l=0.1mm , theta=30^(@) , d=10 cm , R=12cm )

Find the potential at point A

In the electrical circuit shown, points B and C are earthed . Find the potentials of points A and D .

Three spherical shells of masses M , 2M and 3M have radii R , 3R and 4R as shows in figure. Find net potential at point P ,

The resistance and batteries are connected as shown in. The potentials at points B,C,D, and E are assigned as shown. Find the potential at point A.

The figure shown is part of the circuit at steady state The potential of point P is :