Understanding Electric Potential Concepts

The work done by a conservative force is related to the change in potential energy. The correct formula is W = -ΔU, indicating that work done is equal to the negative change in potential energy.

Electric potential difference (ΔV) refers to the work done per unit charge when moving a charge between two points. It quantifies how much energy is transferred to or from a charge in an electric field.

The electric field strength (E) between charged parallel plates is calculated using the formula E = -V/d, where V is the voltage and d is the distance between the plates. This shows how the field relates to voltage and separation.

Potential difference (V) is directly proportional to electric field strength (E) in a uniform field, expressed as V = E * d, where d is the distance. Thus, as one increases, so does the other.

Equipotential surfaces are defined as surfaces where the electric potential is the same at every point. This means that no work is required to move a charge along these surfaces, making the correct choice the one that accurately describes this concept.

When moving along an equipotential surface, the electric potential does not change; it remains constant. This means that no work is done when moving between points on the same equipotential surface.

Electric potential is defined as the electric potential energy per unit charge. This means it relates the energy associated with a charge in an electric field to the amount of charge, distinguishing it from electric potential energy itself.