In the above question, the electric force acting on a point charge of 2 C placed at the origin will be :

Electric potential in vole (in region) is given by v=6x+8y+4z^(2) Calculate the electric force (in N) acting on 2C point charge placed at origin.

Ten positively charged particles are kept fixed on the x-axis at points x=10cm, 20cm, 30cm, …, 100cm. The first particle has a charge 1.0xx 10^(-8)C , the second 8xx10^(-8) C, the third 27xx10(-8) C and so on. The tenth particle has a charge 1000xx10^(-8)C. find the magnitude of the electric force acting on a 1 C charge placed at the origin.

Twelve charges have been placed at the centre of each side of a cube as shown in the figure. Find the magnitude of Electric force acting on a charge Q placed at the centre of the cube. Take the side length of the cube to be r.

Electric field at origin due to a point charge 1 nC placed at (1 ,1) m in x-y plane is

Ten charged particles are kept fixed on the X axis at point x = 10 mm, 20 mm, 30 mm, ......... 100 mm. The first particle has a charge 10^(-8) C, the second 8 × 10^(-8) C, the third 27 × 10^(-8)C and so on. The tenth particle has a charge 1000 × 10^(-8)C . Find the magnitude of electric force acting on a 1 C charge placed at the origin.

Calculate the net force acting on the charge present at the origin.

Electric lines of force about negative point charge are