Charges of `+1.0xx10^(-11)C,-2.0xx10^(-11),+1.0xx10^(-11)C` are placed respectively at the corners B, C and D of a rectangle ABCD. Determine the potential at the corner A. given AB=4cm and BC=3cm

Four charges +50 xxI0^(-9)C, -12 xx I0^(-19)C, + 36 xx I0^(-9)C " and " +90 x 10^(-9)C are placed respectively at the corners of a rectangula: ABCD,AB being equal to 5cm and BC being 12cm. Find: (a) the force on the charge at A, and (b) the field strength at the point of intersection of the two diagonals

ABCD is a square of side 4 cm. Charges of 16xx10^(-9) C, -16xx10^(-9) C and 32xx10^(-9)C are placed at the points A, C and D, respectively. Determine the electric field at point B.

Four charges 10^(-8), -2 xx 10^(8), +3xx10^(-8) and 2xx10^(-8) coulomb are placed at the four corners of a square of side 1m the potential at the centre of the square is

Charges 5.0 xx ^(-7) C and 1.0 xx 10^(-7) C are held fixed at the three cornners A, B, C of an equilateral . charge at C due to the rest two.

Charges of +(10)/(3) xx 10^(-9) C are placed at each of the four corners of a square of side 8 cm . The potential at the intersection of the diagonals is

ABCD is a square of side 0.2m . Charges of 2xx10^(-9) C, 4xx10^(9) C and 8xx10^(9) C are placed at the corners A, B and C respectively. Calculate work required to transfer a charge of 2xx10^(-9) C from corner D to centre of the square.

charges 2.0 xx 10^(-6) C and 1.0 xx 10^(-6) C are placed at. corners A and B of a squae of side 5.0cm as shown in. figure .how much work will be done against. the electric field in moving a charge of 1.0 xx 10^(-6) C from. C to D?.

Three identical charges, each having a value 1.0 xx10^(-8)C, are placed at the corners of an equilateral triangle of side 20 cm find the electric field and potential at the centre of the triangle.

charges of 20nC each are placed at the corners A and B of a square ABCD of side sqrt(8)cm and charges of -10nC at the corners C and D. find the potential at the centre of the square.