Which one of the following forces cannot be expressed in terms of potential energy?
- A
Coulomb's force
- B
Gravitational force
- C
Frictional force
- D
Restoring force
Which one of the following forces cannot be expressed in terms of potential energy?
Coulomb's force
Gravitational force
Frictional force
Restoring force
Correct answer:C
Standard Method
Given: The forces listed are Coulomb's force, gravitational force, frictional force, and restoring force.
Find: Which force cannot be expressed in terms of potential energy.
A force can be expressed in terms of potential energy only if it is conservative. For a conservative force,
or in one dimension,
Also, the work done by a conservative force is path-independent.
Now analyze each force:
Therefore, the force that cannot be expressed in terms of potential energy is frictional force.
The correct option is C.
Concept-Based Analysis
Given: We must identify which listed force does not admit a potential energy description.
Find: The non-conservative force among the options.
The key idea is that only conservative forces have a well-defined potential energy. For such forces, the work done between two points depends only on the initial and final positions, not on the path.
Friction opposes motion and converts mechanical energy into heat. Since its work depends on the path length, it cannot be written in terms of a single-valued potential energy function.
Hence, frictional force is the required answer, so the correct option is C.
Assuming every force has an associated potential energy. This is wrong because only conservative forces can be derived from a potential energy function. First check whether the work done is path-independent.
Confusing restoring force with a non-conservative force. This is incorrect because the spring restoring force is conservative and has elastic potential energy. Use the spring energy relation instead of classifying it by everyday intuition.
Ignoring the path dependence of friction. This is wrong because friction does different work along different paths and dissipates energy as heat. Test the force using the criterion of work over a closed path.
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