A square of side 20cm. Is enclosed by a ...

A square of side 20cm. Is enclosed by a surface of sphere of 80 cm. radius . Square and sphere have the same centre. Four charges `+2xx10^(-6)c,-5xx10^(-6)c,-3xx10^(-6)c,+6xx10^(-6)c` are located at the four corners of a square, Then out going total flux from spherical surface in `N-m^(3)//c` will be

zero

`(16pi)xx10^(-6)`

`(8pi)xx10^(-6)`

`(36pi)xx10^(-6)`

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

ELECTROSTATICS-II
MOTION|Exercise Exercise - 2 (Level - I) Section B - Properties of conductors|9 Videos
ELECTROSTATICS-II
MOTION|Exercise Exercise - 2 (Level - I) Section C - Spheres Problem, Electrostatics pressure|12 Videos
ELECTROSTATICS-II
MOTION|Exercise Exercise 1 (Section D - Plates)|2 Videos
ELECTROSTATICS - I
MOTION|Exercise EXERCISE - 4 (Level -II) PREVIOUS YEAR - JEE ADVANCED|13 Videos
ERRORS , THEORY
MOTION|Exercise EXERCISE 4 (LEVEL -II)|10 Videos

Similar Questions

Explore conceptually related problems

Four charges 10^(-8), -2 xx 10^(8), +3xx10^(-8) and 2xx10^(-8) coulomb are placed at the four corners of a square of side 1m the potential at the centre of the square is

What is the potential at the centre of a square of each side 1.0 meter, when four charges +1xx10^(-8)C, -2xx10^(-8) C, +3xx10^(-8)C and +2xx10^(-8)C are placed at the four corners of the square.

Find the potential at centre of square having charges 2xx10^(-9)C,+1xx10^(-9)C,-2xx10^(-9)C and 3xx10^(-9)C at the four corners. The side of the square is sqrt(2)m .

Four charge q_(1)=2xx10^(-8)C,q_(2)=-2xx10^(-8)C,q_(3)=-3xx10^(-8)C, and q_(4)=6xx10^(-8)C are palced at four corners of a square of side sqrt(2) m. What is the potential at the centre of the square?

Three charges q_1 = 1 xx 10^(-6) C, q^2 = 2 xx 10^(-6)C, and q_3 = -3 xx 10^(-6) C have been placed as shown in figure. Then the net electric flux will be maximum for the surface

[" Four charges "10^(-3):-2times10^(-5);+3times10^(-5)" and "],[2times10^(-5)" coulomb are placed at the four "],[" corners of a square of side "1m" the potential "],[" at the centre of the square is "]

Charges of +(10)/(3) xx 10^(-9) C are placed at each of the four corners of a square of side 8 cm . The potential at the intersection of the diagonals is

MOTION-ELECTROSTATICS-II-Exercise - 2 (Level - I) Section A - Questions Based on electric flux for various configuration, Question on solid angle concept, Gauss law Based Questions

Units of electric flux are
Text Solution
|
The wedge-shaped surface in figure is in a region of uniform electric...
Text Solution
|
A charge Q is placed at the centre of a cube. Find the flux of the ele...
Text Solution
|
The electric field in a region is given by vec(E)=200hati N//C" for "x...
Text Solution
|
A wire of infinite length passing through points H and B of a cube of ...
Text Solution
|
A long string with a charge of lambda per unit length passes through a...
Text Solution
|
A+q(1) charge is at centre of an imaginary spherical Gaussion surface ...
Text Solution
|
Electric field in a region is given by vec(E)=-4xhat(i)+6yhat(j). The ...
Text Solution
|
An electrostatic field line leaves at angle alpha from point charge +q...
Text Solution
|
The electric flux coming out of the equi-potential surface is -
Text Solution
|
A rectangular surface of 2 metre width and 4 metre length, is placed i...
Text Solution
|
A square of side 20cm. Is enclosed by a surface of sphere of 80 cm. ra...
Text Solution
|