The work done in bringing a 20 coulomb c...

The work done in bringing a `20` coulomb charge from point `A` to point `B` for disatnce `0.2 m` is `2 J`. The potential difference between the two points will be (in volt)

A

0.2 V

B

8 V

C

0.1 V

D

0.4 V

Text Solution

Verified by Experts

Promotional Banner

Promotional Banner

Topper's Solved these Questions

ELECTROSTATICS
PHYSICS GALAXY - ASHISH ARORA|Exercise Advance MCQs|40 Videos
ELECTROSTATICS
PHYSICS GALAXY - ASHISH ARORA|Exercise Unsolved Numberical Problems|73 Videos
ELECTROSTATICS
PHYSICS GALAXY - ASHISH ARORA|Exercise Conceptual MCQs single option correct|70 Videos
ELECTROMAGNETIC INDUCTION AND ALTERNATING CURRENT
PHYSICS GALAXY - ASHISH ARORA|Exercise Advance MCQs|33 Videos
GEOMETRICAL OPTICS
PHYSICS GALAXY - ASHISH ARORA|Exercise Unsolved Numerical Problems|107 Videos

Similar Questions

Explore conceptually related problems

The work done in bringing a 20 coulomb charge from point A to point B for distance 0.2m is 2J .The potential difference between the two points will be x times10^(-1) Find x?

The potential difference between points A and B from the figure is

The work done in bringing 5 C of charge from infinity to a point A near a charged body is 20 J. Find the potential at point A.

The work done in moving a charge of 20 C from A to B over a distance of 0.2 m is 2 J. The potential difference across A and B is _______.

The work done in carrying an electron from point A to a point B in an electric is 10 MJ. The potential difference (V_(B)-V_(A)) is then

The work done in moving a charge of 3 C between two points is 6J. What is the potential difference between the two points?

The work done in moving a charge from one point to the other is 20J. If the potential difference between the points is 10V, the charge is:

The work done in carrying a charge of 5 mu C form a point A to a point B in an electric field is 10mJ . The potential difference (V_(B) - V_(A)) is then

PHYSICS GALAXY - ASHISH ARORA-ELECTROSTATICS-Numerical MCQs Single options Correct

A sphere of radius 2R has a uniform charge density p. The difference i...
Text Solution
|
A sphere of radius R carries charge density p proportional to the squa...
Text Solution
|
The work done in bringing a 20 coulomb charge from point A to point B ...
Text Solution
|
In an electric field region, the electric potential varies along the x...
Text Solution
|
Two spheres A and B of radii 17 cm each and having charges of 1 and 2 ...
Text Solution
|
Electric potential at any point in a region is given as V=5x+3y+sqrt...
Text Solution
|
A charge +Q is uniformly distributed in a spherical volume of radius R...
Text Solution
|
A charge +q is fixed at each of the points x=x0, x=3x0, x=5x0,…………x=oo...
Text Solution
|
The displacement of a chrage Q in the electric field E = e(1)hati + ...
Text Solution
|
A non-conducting ring ofradius 0.5 m carries a total charge of 1.11xx1...
Text Solution
|
Three semi-infinite rods uniformly charged out of which one is negativ...
Text Solution
|
Two small balls of mass Meach carrying charges +Q and -Q, connected by...
Text Solution
|
A particle of mass m and charge -q is projected from the origin with a...
Text Solution
|
The grid (each square of 1mxx1m), represents a region in space contain...
Text Solution
|
At a certain distance from a point charge, the field intensity is 500 ...
Text Solution
|
Two insulting plates are both uniformly charged in such a way that the...
Text Solution
|
Q charge is uniformaly distributed over the same surface of a right ci...
Text Solution
|
A conducting rod of length I rotates about its one end with angolar ve...
Text Solution
|
A tiny spherical oil drop carrying a net charge q is balanced in still...
Text Solution
|
The two ends of a rubber string of negligible mass and having unstretc...
Text Solution
|