In a uniform electric field, the potential is `10 V` at the origin of coordinates and 8 V at each of the points `(1,0,0), (0,1,0)` and `(0,0,1)`. The potential at the point `(1,1,1)` will be

In a uniform electric field, the potential is 10V at the origin of coordinates , and 8 V at each of the points (1, 0, 0), (0, 1, 0) and (0, 0, 1). The potential at the point (1, 1,1 ) will be .

The point equidistant from the point (0,0,0),(1,0,0,),(0,2,0) and (0,0,3) is

Show that the points (1,0), (6,0), (0,0) are collinear.

If the points (0,0), (1,0), (0,1) and (t, t) are concyclic, then t is equal to

Four identical charges are placed at the points (1,0,0), (0,1,0),(-1,0,0) , and (0,-1,0) . Then,

Find the equation of the circle that passes through the points (1,0),(-1,0)a n d(0,1)dot

Find the equation of the circles passing through the three points : (1,0), (0, 1) and (-1, 0)

Two point charges -q and +q are located at points (0,0-a) and (0,0,a) respectively. The electric potential at point (0,0,z) is (Z gt a)

A uniform surface charge of density sigma is given to a quarter of a disc extending upto infinity in the first quadrant of x-y plane. The centre of the disc is at the origin O. Find the z-component of the electric field at the point (0, 0, z) and the potential difference between the points (0, 0, d) & (0, 0, 2d) .

Let V_0 be the potential at the origin in an electric field vecE = 4hati + 5hatj . The potential at the point (x,y) is