Charges are placed at the vertices of square as shown in diagram . If charge at A and B are interchanged with C and D respectively then

Charges are placed at the vertices of a square as shown in the diagram . If charges at A and B are interchanged with C and D respectively , then,

Charges are placed on the vertices of a square as shown. Let E r be the electric field and V the potential at the centre. If the charges on A and B are interchanged with those on D and C respectively, then :-

Point charges each of magnitude Q are placed at three corners of a square as shown in the diagram. What is the direction of the resultant electric field at the fourth corner ?

Four identical charges are placed at the four vertices of a square lying in YZ plane. A fifth charge is moved along X axis. The variation of potential energy (U) along X axis is correctly represented by

Four point charges are placed at the corners of a square ABCD of side 10 cm, as shown in figure. The force on a charge of 1muC placed at the centre of square is

Six point charges are placed at the vertices of a hexagon of side 1 m as shown in figure. Net electric field at the centre of the hexagon is

Four charge are placed at the corners of a square of side 10 cm as shown in figure having. If q is 1 mu C , then what will be electric field intensity at the centre of the square?

Four pointed charges are placed on vertices of a square.If all the charges are brought to any one of the vertices.The change in potential at the centre of square due to this would be

Charges are placed at the corners of a square of side a as shown in the following figure. The charged particle placed at A is in equilibrium. The ratio (q_1)/(q_2) is

Equal charges q are placed at the vertices A and B of an equilatral triangle ABC of side a . The magnitude of electric field at the point C is