What is the definition of work done in physics?

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Master the NCEA Level 3 Physics Mechanics Exam with tailored quiz questions. Study efficiently with multiple choice questions and detailed explanations. Get prepared for your exam success!

Multiple Choice

What is the definition of work done in physics?

Explanation:
The definition of work done in physics is accurately captured by stating that work is the product of force and distance moved in the direction of the force. This definition reflects the fundamental relationship between force, movement, and energy transfer. In this context, work is calculated using the formula: \[ \text{Work} = \text{Force} \times \text{Distance} \times \cos(\theta) \] where \(\theta\) is the angle between the force and the direction of motion. When the force is applied in the exact direction of the movement, \(\theta\) is 0 degrees, and \(\cos(0) = 1\), simplifying the formula to just the product of force and distance. This indicates that work is not only about having a force applied but also about that force causing an object to move. Energy is said to be done when there is a displacement in the direction of the applied force, hence work takes into account both the magnitude of the applied force and the distance over which it acts. The other options do not accurately describe the full concept of work in physics. For instance, while one option mentions energy transfer, it lacks the necessary context of distance and direction. Another suggests that work

The definition of work done in physics is accurately captured by stating that work is the product of force and distance moved in the direction of the force. This definition reflects the fundamental relationship between force, movement, and energy transfer.

In this context, work is calculated using the formula:

[ \text{Work} = \text{Force} \times \text{Distance} \times \cos(\theta) ]

where (\theta) is the angle between the force and the direction of motion. When the force is applied in the exact direction of the movement, (\theta) is 0 degrees, and (\cos(0) = 1), simplifying the formula to just the product of force and distance.

This indicates that work is not only about having a force applied but also about that force causing an object to move. Energy is said to be done when there is a displacement in the direction of the applied force, hence work takes into account both the magnitude of the applied force and the distance over which it acts.

The other options do not accurately describe the full concept of work in physics. For instance, while one option mentions energy transfer, it lacks the necessary context of distance and direction. Another suggests that work

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