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

In the above question, the force acting on the object is

Electric potential is given by V = 6x - 8xy^(2) - 8y + 6yz - 4z^(2) Then electric force acting on 2C point charge placed on origin will be

Calculate the net force acting on the charge present at the 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 lines of force about negative point charge are

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.