A point charge of 0.01 `mu`C is placed at the origin. Calculate the electric field at another point charge of 0.05 `mu`C placed at (0 m, 5 m).

A point charge of 0.009 mu C is placed at origin. Calculate intensity of electric field due to this point charge at point (sqrt(2), sqrt(7), 0) .

calculate the electric field at point (5 m, 0) due to a point charge of 1 x 10(-6) C placed at (0,5m).

A charge q = -2.0 muC is placed at origin. Find the electric field at (3 m, 4 m, 0) .

(a) A point charge Q = 100 mu C is placed at origin. Find electric field vector at point ( 6 m , 8 m) . (b) A point charge Q = 169 mu C is placed at (1 m , 2m , 3m) . Find the electric field vector at the point (4m , 6m , 15m) .

Electric field at origin due to a point charge 1 nC placed at (1 ,1) m in x-y plane is

A point charge of 100mu C is placed at 3 hat j+4 hat j m . Find the electric field intensity due to this chargaes at a point located at 9 hat j+12 hat j m .

A point charge q is placed at the origin . How does the electric field due to the charge very with distance r from the origin ?

Eight identical point charges of q coulomb each are placed at the corners of a cube side 0.1m. Calculate electric field at the centre of the cube. Calculate the field at the center when one of the corner charges is removed.

A point charge q_(A)=+100 mu c is placed at point A (1, 0, 2) m and another point charge q_(B)=+200 mu c is placed at point B (4, 4, 2) m. Find : (i) Magnitude of electrostatic interaction force acting between them (ii) Find vec(F)_(A) (force on A due to B) and vec(F)_(B) (force on due to A) in vector form