In an ideal simple machine, what happens to the total work?

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Study for the Abeka Science Matter and Energy Exam. Tackle multiple choice questions, use hints, and access thorough explanations. Get prepared for your test!

Multiple Choice

In an ideal simple machine, what happens to the total work?

Explanation:
Energy is conserved in an ideal simple machine because there’s no friction or other losses. The work you do on the machine is transferred to the load, so the amount of work stays the same: input work equals output work. Since work is force times distance, you can trade a larger force over a shorter distance for a smaller force over a longer distance, but the product remains equal. If there were friction, some energy would be lost as heat, and the output work would be less, but in the ideal case there are no such losses. Thus, total work remains the same.

Energy is conserved in an ideal simple machine because there’s no friction or other losses. The work you do on the machine is transferred to the load, so the amount of work stays the same: input work equals output work. Since work is force times distance, you can trade a larger force over a shorter distance for a smaller force over a longer distance, but the product remains equal. If there were friction, some energy would be lost as heat, and the output work would be less, but in the ideal case there are no such losses. Thus, total work remains the same.

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