figure shows, in cross section, two Gaussian spheres and two Gaussian cubes that are centered on a positively charged particle on a positively charged particle . Rank greatest first, and indicate whether the magnitudes are uniform or variable along each surface.

A positively charge particle moving along x -axis with a certain velocity enters a uniform electric field directed along positively y-axis. Its

In figure a close surface encloses two of the four positively charged particles. Which of the particles contribute to the elctric field at point P on the surface:

Two equal positive charges, each of 2muC interact with a third positive charge of 3 muC situated as shown in Fig. Calculate the magnitude and direction of the force on the 3 muC charge.

Two charged particles are placed at a distance 1.0 cm apart. What is the minimum possible magnitude of the electric force acting o each charge?

In a region, steady and uniform electric and magnetic fields are present . These two fields are parallel to each other. A charged particle is released from rest in this region . The path of the particle will be a

The figure shows four arrangement of three particles of equal masses. Rank the arrangement according to the magnitude of the net gravitational force on the particle m, greatest first.

The figure here shows three equal currents i (two parallel and one antiparallel) and four Amperian loops. Rank the loops according to the magnitude of oint along each, greatest first.

Figure, shown above, shows three situations involving a charged particle and a uniformly charged spherical shell. The charges and radii of the shells are indicated in the figure. If F_(1),F_(2) and F_(3) are the magnitudes of the force on the particle due to the shell in situations (I),(II) and (III) then