Find the electric field in region II as shown in figure.

Find the electric field in region II as in figure shown.

A solid spherical region, having a spherical cavity whose diameter R is equal to the radius of the spherical region, has a total charge Q. Find the electric field at a point P as shown in figure .

What will be the magnitude of electric field at point O as shown in figure ? Each side of the figure is l and perpendicular to each other ?

Find the magnetic field at point O shown in the figure

Euipotential surfaces in a region of electric field are shaped as shown in the figure. The potential of field lines is increasing as one moves to right. A thin beam of electrons enters the region from left along the axis. Give qualitative arguments to show that the region will act as an electrostatic lens trying to focus the beam of electrons.

A cone lies in a uniform electric field E as shown in figure. The electric flux entering the cone is

Consider a unifrom electric field in a region as shown below. Then, potential difference between points A and C is given by

(A)Two point charges q_1 and q_2 are kept r distance apart in a uniform external electric field vecE . Find the amount of work done in assembling this system of charges. (B) A cube of side 20 cm is kept in a region as shown in the figure. An electric field vecE exists in the region such that the potential at a point is given by V = 10x + 5 , where V is in volt and x is in m. Find the electric field vecE and (ii) total electric flux through the cube.

A graph of the x-component of the electric field as a function of x in a region of space is shown in figure. The y- and z-components of the electric field are zero in this region. If the electric potential is 10 V at the origin, then the potential at x = 2.0 m is

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 ?