Simple machine
Encyclopedia : S : SI : SIM : Simple machine
In physics, a simple machine is any device that only requires the application of a single force to work. Work is done when a force is applied and results in movement over a set distance. The work done is the product of the force and the distance. The amount of work required to achieve a set objective is constant, however the force required to do this can be reduced provided the lesser force is applied over a longer distance. Increase the distance and reduce the force. The ratio between the two forces is the mechanical advantage.
The traditional list of simple machines is:
- The inclined plane (N)
- The wheel and axle (O)
- The lever (T)
- The pulley (U)
- The wedge (V [single wedge] X [double wedge])
- The screw (Y)
The ratio of the output force to the input force is the mechanical advantage. For example, the mechanical advantage of a lever is equal to the ratio of its two arms. The mechanical advantage of an inclined plane (with the force acting parallel to the plane) is the cosecant of the angle of inclination.
- Note: Real machines are also affected by factors such as friction and elasticity, so the actual mechanical advantage of a simple machine will usually differ from its theoretical value.
Variations to the list of simple machines:
- Some say there are only five simple machines arguing that the wedge is a moving inclined plane.
- Others further simplify the list to four saying that the screw is a helical inclined plane. This position is less accepted because a screw simultaneously converts a rotational force (torque) to a linear force.
- Hydraulic and hydrostatic systems are sometimes included.[link]
See also
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