Calculate the potential at point (0, 7 cm) due to a point charge of 0.2 `muC` placed at (0, 2 cm).

calculate the electric field at point (5 m, 0) due to a point charge of 1 x 10(-6) C placed at (0,5m).

Find out electric field intensity at point A (0, 1m, 2m) due to a point charge -20 muC situated at point B (sqrt(2)m, 0, 1m) .

Find out electridc filed intensity at point A(1,0,2) due to a point charge -20muC situated at pont B(0,sqrt(2),1) :

The potential at a point due to charge of 5xx10^(-7)C located 10 cm away is

Calculate the electric potential at the centre of a metallic ring with charge 0.02 muC made from a wire of length 12 cm.

A point charge of 9.6 muC is placed at a point A. Point B is at a distance of 10 cm from A. (i) Calculate electric potential at point B due to charge at A. (ii) If a point charge of 3 nC is brought from infinity to the point B, then calculate work done by the external agent in this process assuming motion of charge to be slow.

calculate the electric potential at point (15cm, 0, 0) if the ring is placed parallel to y-z plane with centre at the origin and metallic ring with charge 0.02 μC made from a wire of length 12 cm.

Determine the potential at a point 0.50 m (i) from a+20 muC potential charge (ii) from a-20 muC point charge.

Calculate the work required to separate two charges 5 muc and -2 muc placed at (- 3 cm, 0, 0) and (+ 3 cm, 0, 0) infinitely away from each other

A 0.6 C of charge is placed at right angled vertex B of a right angle triangle. Calculate the potential at point A and C, if AB = 3 cm and BC = 4 cm. Also calculate the work done in slowly moving a -0.1 muC charge from point A to C.