An in-wheel electric motor

1 . An in-wheel electric motor for a vehicle comprising: a stator, a first rotor arranged to be housed within a wheel of the vehicle, and coupling means for selectively coupling the first rotor to the wheel of the vehicle and decoupling the first rotor to the wheel, such that when the first rotor is coupled to the wheel, the first rotor is arranged to rotate with the wheel, and when the first rotor is decoupled from the wheel, the first rotor is arranged to be stationary with respect to the stator when the wheel rotates relative to the stator. 2 . An in-wheel electric motor according to claim 1 , wherein the coupling means is arranged to selectively couple the first rotor to the wheel of the vehicle and decouple the first rotor to the wheel in response to an electrical signal. 3 . An in-wheel electric motor according to claim 1 , wherein the coupling means includes a face dog tooth interface or a radial dog tooth interface for coupling the first rotor to the wheel. 4 . An in-wheel electric motor according to claim 1 , wherein the coupling means includes a pin for coupling the first rotor to the wheel. 5 . An in-wheel electric motor according to claim 4 , wherein the pin is arranged to be placed in an aperture on the wheel when the rotor is coupled to the wheel. 6 . An in-wheel electric motor according to claim 1 , wherein the coupling means includes a clutch for coupling the first rotor to the wheel. 7 . An in-wheel electric motor according to claim 1 , further comprising means for maintaining the first rotor stationary with respect to the stator when the first rotor is decoupled from the wheel. 8 . An in-wheel electric motor according to claim 2 , wherein the means for maintaining includes an activation circuit for applying a current to coil windings mounted on the stator for generating a magnetic field that interacts with the first rotor to inhibit movement of the first rotor relative to the stator. 9 . An in-wheel electric motor according to claim 1 , further comprising a first bearing to allow the wheel to rotate relative to the stator and a second bearing to allow the first rotor to rotate relative to the stator. 10 . An in-wheel electric motor according to claim 4 , wherein when the first rotor is coupled to the wheel, the movement of the first bearing and the second bearing are synchronised. 11 . An in-wheel electric motor according to claim 4 , wherein when the first rotor is decoupled from the wheel, the second bearing is stationary when the first bearing is rotating. 12 . An in-wheel electric motor according to claim 1 , wherein the first rotor includes an inner rotor and an outer rotor. 13 . An in-wheel electric motor according to claim 12 , wherein: the outer rotor is arranged to be coupled to the wheel, and the coupling means is arranged to selectively couple the inner rotor to the outer rotor and decouple the inner rotor to the outer rotor, such that when the inner rotor is coupled to the outer rotor, the wheel is arranged to rotate with the inner rotor and when the inner rotor is decoupled from the outer rotor, the inner rotor is arranged to be stationary with respect to the stator while the wheel rotates relative to the inner rotor. 14 . An in-wheel electric motor according to claim 13 , further comprising a brake disc attached to the outer rotor. 15 . A vehicle comprising: a wheel, and an in-wheel electric motor, the in-wheel electric motor comprising: a stator, a first rotor arranged to be housed within a wheel of the vehicle, and coupling means for selectively coupling the first rotor to the wheel of the vehicle and decoupling the first rotor to the wheel, such that when the first rotor is coupled to the wheel, the first rotor is arranged to rotate with the wheel, and when the first rotor is decoupled from the wheel, the first rotor is arranged to be stationary with respect to the stator when the wheel rotates relative to the stator. 16 . A method for an in-wheel electric motor for a vehicle, wherein the in-wheel electric motor includes a stator, a first rotor arranged to be housed within a wheel of the vehicle, and coupling means for selectively coupling the first rotor to the wheel of the vehicle and decoupling the first rotor to the wheel, such that when the first rotor is coupled to the wheel, the wheel is arranged to rotate with the first rotor and when the first rotor is decoupled from the wheel, the first rotor is arranged to be stationary with respect to the stator while the wheel rotates relative to the first rotor, the method comprising coupling the first rotor to the wheel and decoupling the first rotor from the wheel in response to the receipt of an actuation signal. 17 . An in-wheel electric motor according to claim 15 , wherein the coupling means includes a face dog tooth interface or a radial dog tooth interface for coupling the first rotor to the wheel. 18 . An in-wheel electric motor according to claim 15 , wherein the coupling means includes a pin for coupling the first rotor to the wheel. 19 . An in-wheel electric motor according to claim 15 , wherein the coupling means includes a clutch for coupling the first rotor to the wheel. 20 . An in-wheel electric motor according to claim 15 , further comprising means for maintaining the first rotor stationary with respect to the stator when the first rotor is decoupled from the wheel.