# Wedge (mechanics)

A wedge is a movable inclined plane, used either to separate two objects, or portions of objects, lift an object, or hold an object in place, by the application of force to the wide end, which the wedge converts to force at a right angle to to the inclined surfaces. The mechanical advantage of a wedge depends on the ratio of its length to its thickness. Where a short wedge with a wide angle does the job faster, it requires more force than a long wedge with a smaller angle.

## History

The origin of the wedge is unknown, because it has been in use as early as the Stone Age. Circa 3000 BC, in Ancient Egypt quarrys, bronze wedges were used to break away blocks of rock used for construction. Wood wedges, that swelled after being wet, were also used. Some Native American tribes used antler wedges as a means of splitting and working wood to make canoes, houses, and other wood objects.

## Examples for separating and lifting

Examples include axes, splitting mauls, and splitting wedges. Wedges can also be used to lift heavy objects, or finely adjust the height of objects, essentially separating them from the surface they rest on. These may also be referred to as shims. Knives, scissors, chisels, and even teeth can sometimes be used as wedges, however, they are more fundamentally cutting implements.

## Examples for holding fast

Wedges can also be used to hold objects in place, such as engine parts (poppet valves), bicycle parts (stems and eccentric bottom brackets), and doors.

A door stop (door wedge) is a wedge, and its main function is to generate friction between the bottom of the door and the ground.

A fork or nails can also be considered a type of wedge. While a nail will slice into wood when hammered, a bolt will not be pushed in. This is because a nail is a wedge and a bolt is not. A nail is tapered to a point at its end, then gets thicker farther up towards the head of the nail.

The downwards force on the wedge produces a horizontal force in the object

The mechanical advantage of a wedge is the length of the sloping side of the wedge and divide it by the length of the thick end of the wedge. Therefore the formula for a wedge is:

$MA={S \over T}$

The more acute the angle of the wedge, the more mechanical advantage it will have.

Despite this, one reason that many splitting wedges have a wide angle is that an elastic material, such as wood, will bind a narrow wedge more readily than a wide wedge. This is why splitting mauls have a much larger angle than an axe.