The position of the point where the net electric field will be zero is

Two charge Q_(1)=18muC and Q_(2)=-2 mu C are separated by a distance R, and Q_(1) is on the left of Q_(2) . The distance of the point where the net electric field is zero is

Two point charges 2 mu C and 8 mu C areplaced 12 cm apart. Find the position of the point where the electric field intensity will be zero.

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 identical charge of value Q each are placed at (-a,0) and (a , 0) . The end coordinates of the point where the net electric field is zero and maximum are respectively-

Two point charges of +16 muC and -9 mu C are placed 8 cm apart in air. Determine the position of the point at which the resultant electric field is zero.

The positions of two point charges q_(1) and q_(2) are vecr_(1) and vecr_(2) , respectively. Find the position of the point where the net field is zero due to thses charges.

Two point charges (+Q) and (-2Q) are fixed on the X-axis at positions a and 2a from origin respectively. At what positions on the axis, the resultant electric field is zero

When two point charges q_(A) and q_(B) are placed at some separation on positive x-axis at points (x_(A), 0) and (x_(B), 0) . Given that |q_(A)| and |q_(B)| and x_(B) gt x_(A) . If null point is the point where net electric field due to both the charges is zero, then

For a spherical capacitor shown at which points the electric field will be zero ? ( r is the distance of point from centre O )

Two particles A and B having charges of +2.00 xx 10^(-6) C and of - 4.00xx 10^(-6) respectively are held fixed at a separation of 20.0 cm . Locate the point(s) on the line AB where (a) the electric field is zero (b) the electric potential is zero.