Which of the following best describes the relationship between force, distance, and work?

Work is defined in physics as the product of force applied to an object and the distance over which that force is applied in the direction of that force. The formula for calculating work is represented as ( W = F \cdot d ), where ( W ) is work, ( F ) is force, and ( d ) is the distance. This relationship indicates that both the magnitude of the force and the distance it acts over are crucial to determine the total amount of work done on an object.

When a force moves an object through a distance, work is done, and if either the force or the distance is zero, no work is accomplished. This concept is foundational in understanding mechanical systems and energy transfer within physics, reinforcing the idea that work requires interaction through both force and displacement.