A point charge of is placed at origin. The work done in moving a point charge from point A to B is _____ . ( in SI units)
- A
- B
- C
- D
A point charge of is placed at origin. The work done in moving a point charge from point A to B is _____ . ( in SI units)
Correct answer:C
Standard Method
Given: Source charge , test charge , , point and point .
Find: The work done in moving the charge from to .
Since the electric field is conservative, the work depends only on the initial and final positions. Use electric potential:
and
First calculate the distances from the origin:
Now the potentials at the two points are:
Therefore,
Therefore, the work done in moving the charge from point to point is . The correct option is C.
Using potential difference carefully
Given: The charge is moved in the field of a point charge at the origin.
Find: The required work from to .
The hint emphasizes the sign convention. Work done by the electric field is
whereas work done by an external agent in moving the charge slowly is
Here the solution interprets the question as the latter.
Since point is closer to the positive source charge than point , its potential must be greater. Thus the required work is positive. After computing
we get
Hence the correct option is C.
Using distance from to instead of distance from each point to the origin. The potential due to a point charge depends on distance from the source charge, not on the separation between the two points. First find and from the origin.
Using the wrong sign for work. Work done by the electric field is , while work done by an external agent is . The extracted solution uses the external work convention.
Forgetting to convert into coulomb. Writing instead of makes the numerical answer wrong by a factor of .
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