Two points A and B are located in a region of space containing electric field as shown in the figure. As we move from A to B, the potentia

In figure two points A and B are located in a region of electric field . The potential difference V_(B)-V_(A) is

A particle of mass 1g and charge 2 C is released from a point A in a region of space containing electric field. Its speed is measured to be 2 m//s when it passes a point B some distance away from A. Potential difference the two points A and B is

A charged partile is moved infinitesimally slowly from point A to B in a region of space containing electric field by an external agent. Work done by the external agent is 50 J . Two students calculate the potential energy of the particle at A and B. Student X reports to the teacher the values of potential energy at A and B are 50 J and 100 J while student Y reports then to be 70 J and 120 J . Which of the two students is wrong

Conisder the dipole vec(p) kept in a space of electric field a shown. The dipole will move

The figure shows the path of a positively charged particle 1 through a rectangualr region of unifrom electric field as shown in the figure. What is the direction of electric field and the direction of deflection of particles 2, 3 and 4 ?

Between two infinitely long wires having linear charge densities lambda and - lambda , there are two points A and B as shown in the figure. The amount of work done by the electric field in moving a point charge q_(0) from A to B is equal to :

There is a electric circuit as shown in the figure. Find potential difference between points a and b.

In a certain region of space, the electric field is zero. From this, we can conclude that the electric potential in this region is:

Two point masses m and 2m are kept at points A and B as shown. E represents magnitude of gravitational field strength and V the gravitational potential. As we move from A to B

The flux of electric field through the circular region of radius r as shown in the figure is