A charges Q is placed at each of the two...

A charges Q is placed at each of the two opposite corners of a square. A charge q is placed to each of the other two corners. If the resultant force on each charge q is zero, then

`Q = - (q)/(2sqrt(2))`

`Q = -2 sqrt(2) q`.

`Q = - 2q`

`Q = 2 sqrt(2) q`

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

ELECTROMAGNETIC INDUCTION
MOTION|Exercise EXERCISE-4 (LEVEL-II)|13 Videos
ELECTRONICS - SEMI CONDUCTOR
MOTION|Exercise EXERCISE - 3|29 Videos

Similar Questions

Explore conceptually related problems

A charge Q is place at each of the opposite corners of a square. A charge q is placed at each of the other two corners. If the net electrical force on Q is zero, then Q//q equals:

A charge Q is placed at each of the two opposite corners of a square of side a.A charge is placed at each of the other two corners. (a) if the reultant electrical force system of charges? What is the signification of its negative potential energy?

Two equal point charges Q=+sqrt(2) mu C are placed at each of the two opposite corners of a square and equal point charges q at each of the other two corners. What must be the value of q so that the resultant force on Q is zero?

Four positive charges (2sqrt2-1)Q are arranged at the four corners of a square. Another charge q is placed at the center of the square. Resulting force acting on each corner charge is zero if q is

A charge +q is fixed to each of three corners of a square .On the empty corner a charge Q is placed such that there is no net electrostatic force acting on the diagonally opposite charge then

A point charge Q is placed at the corner of a square of side a. Find the flux through the square.

Two point charges +Q each are placed at adjacent corners of a square. Other two point charges -Q each are placed at the remaining two corners of the same square . The side of the square is l. Find electric field intensity at the centre of the square.

Four identical charges i.e. q is placed at the corners of a square of side a . The charge Q that must be placed at the centre of the square such that the whole system of charges in equilibrium is

MOTION-ELECTROMAGNETISM-Exercise

If a positive charge is shifted from a low - potential region to a hig...
Text Solution
|
A particle of mass 2 g and charge 1 muC is held at rest on a frictionl...
Text Solution
|
A charges Q is placed at each of the two opposite corners of a square....
Text Solution
|
Two equal positive charges are kept at points A and B. The electric po...
Text Solution
|
In the diagram (given below) the broken lines represent the paths foll...
Text Solution
|
In previous question if the particles started from rest and all are po...
Text Solution
|
A hemisphere (radius R) is placed in electric field as shown in fig. T...
Text Solution
|
Two small balls having equal poistive charges Q( coulomb) on each are ...
Text Solution
|
A metal sphere A of radius R has a charge of Q on it .The field at a ...
Text Solution
|
semicircle of radius R. The electric field at the centre is -
Text Solution
|
The potential of a charged drop is v. This is divided into n smaller ...
Text Solution
|
When an electric dipole P vecv is placed in a uniform electric field v...
Text Solution
|
An electric dipole is placed along the x-axis at the origin O.A point ...
Text Solution
|
Two charged metal spheres of radii R and 2R are temporarily placed in...
Text Solution
|
Two parallel plate air filled capacitors each of capacitance C, are jo...
Text Solution
|
A capacitor when filled with a dielectric K = 3 has charge Q(0), volta...
Text Solution
|
Four condenser are joined as shown in the adjoining figure. The capac...
Text Solution
|
In a parallel plate capacitor, the separation between the plates is 3m...
Text Solution
|
Four metallic plates each with a surface area A of one side and placed...
Text Solution
|
Two identical parallel plate air capacitors are connected in series to...
Text Solution
|