Charge 2Q and `-Q` are placed as shown in figure. The point at which electric field intensity is zero will be somewhere

Charge 2q and -q are placed at (a,0) and (-a, 0) as shown in the figure. The coordinates of the point at which electric field intensity is zero will be (x,0) where

Two charges e and 3e are placed at a distance r. The distance of the point where the electric field intensity will be zero is

Two point charges 2 muC and -2 muC are placed at point A and B as shown in figure. Find out electric field intensity at points C and D. [All the distances are measured in meter].

If three infinite charged sheets of uniform surface charge densities sigma, 2sigma and -4 sigma are placed as shown in figure, then find out electric field intensities at points A, B, C and D.

There are three conducting concentric spherical shells having charges Q, -Q, 2Q respectively as shown in the figure. The electric field intensity at point P is (where OP= 2.5R) ( k= 1/(4π epsilon_0) )

Three infinitely long charge sheets are placed as shown in figure. The electric field at point P is

Two charges 4q and q are placed 30 cm. apart. At what point the value of electric field will be zero

An uncharged metallic solid sphere of radius R is placed at a distance 2R from point charge Q as shown in figure. The electric field intensity due to induced charge at centre of sphere is

Figure shows a long wire having uniform charge density lambda as shown in figure. Calculate electric field intensity at point P.

Two point charges Q and -3Q are placed at some distance apart. If the electric field at the location of Q is vec (E ) , the field at the location of - 3Q is