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==Mechanics and function== {{About|the application to transport|the simple machine|Wheel and axle|section=yes}} A wheeled vehicle requires much less work to move than simply dragging the same weight. The low resistance to motion is explained by the fact that the [[friction|frictional work]] done is no longer at the surface that the vehicle is traversing, but in the [[bearing (mechanical)|bearings]]. In the simplest and oldest case the bearing is just a round hole through which the axle passes (a "[[plain bearing]]"). Even with a plain bearing, the frictional work is greatly reduced because: * The normal force at the sliding interface is same as with simple dragging. * The sliding distance is reduced for a given distance of travel. * The coefficient of friction at the interface is usually lower. Example: * If a 100 kg object is dragged for 10 m along a surface with the [[coefficient of friction]] ''μ'' = 0.5, the [[normal force]] is 981 [[Newton (unit)|N]] and the [[Mechanical work|work]] done (required [[energy]]) is (work=force x distance) 981 × 0.5 × 10 = 4905 [[joule]]s. * Now give the object 4 wheels. The normal force between the 4 wheels and axles is the same (in total) 981 N. Assume, for wood, ''μ'' = 0.25, and say the wheel [[diameter]] is 1000 mm and axle diameter is 50 mm. So while the object still moves 10 m the sliding frictional surfaces only slide over each other a distance of 0.5 m. The work done is 981 × 0.25 × 0.5 = 123 joules; the work done has reduced to 1/40 of that of dragging. Additional energy is lost from the wheel-to-road interface. This is termed [[rolling resistance]] which is predominantly a deformation loss. It depends on the nature of the ground, of the material of the wheel, its inflation in the case of a tire, the net torque exerted by the eventual engine, and many other factors. A wheel can also offer advantages in traversing irregular surfaces if the wheel radius is sufficiently large compared to the irregularities. The wheel alone is not a machine, but when attached to an [[axle]] in conjunction with bearing, it forms the [[wheel and axle]], one of the [[simple machine]]s. A driven wheel is an example of a wheel and axle. Wheels pre-date driven wheels by about 6000 years, themselves an evolution of using round logs as rollers to move a heavy load—a practice going back in pre-history so far that it has not been dated.
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