A simple machine doesn't actually allow you to do more work; rather, it allows you to do the same amount of work more efficiently by changing the direction of the force or spreading the work over a greater distance. The concept of work in physics is defined as the force applied to an object times the distance over which that force is applied (W = F × d).
Simple machines, like levers, pulleys, inclined planes, wedges, screws, and wheels and axles, help in reducing the effort required to perform tasks. For example:
- Lever: By placing the fulcrum closer to the load, you can lift a heavier object with less force.
- Pulley: A system of pulleys can share the load, making it easier to lift heavy objects.
- Inclined Plane: It allows you to lift an object over a greater distance by pushing it up a slope rather than lifting it straight up.
- Wedge and Screw: These convert a force applied over a distance into a force applied in a different direction, making certain tasks more manageable.
While they make tasks easier, the total work done (input work = output work) remains constant, adhering to the conservation of energy principle. Therefore, simple machines change how work is done, not the total amount of work required.