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A personal vehicle system including a deck having a substantially flat top surface, where the top surface is substantially flat and is of sufficient area to support two feet of a user, a truck coupled to the deck, where the truck consist of a first portion coupled to the deck and a second portion th

A personal vehicle system including a deck having a substantially flat top surface, where the top surface is substantially flat and is of sufficient area to support two feet of a user, a truck coupled to the deck, where the truck consist of a first portion coupled to the deck and a second portion that tilts relative to the first portion, and a wheel motor coupled to the second portion of the truck. A personal vehicle system that includes a deck, a truck coupled to the deck, and a wheel motor coupled to the truck, where the wheel motor has a passive cooling system. The passive cooling system includes at least one endcap that rotates about a wheel rotation axis during operation of the wheel motor and the endcap has at least one fin.

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1. A personal vehicle system comprising: a deck having a top surface, wherein the top surface is substantially flat and is of sufficient area to support at least portions of two feet of a user;a truck coupled to the deck, the truck comprising a first portion coupled to the deck and a second portion

1. A personal vehicle system comprising: a deck having a top surface, wherein the top surface is substantially flat and is of sufficient area to support at least portions of two feet of a user;a truck coupled to the deck, the truck comprising a first portion coupled to the deck and a second portion that pivots relative to the first portion; andan electric wheel motor contained by a wheel, wherein a ratio of a length of a torque arm of the electric wheel motor to a length of a total wheel radius of the wheel is greater than 50%, the electric wheel motor comprising: a rotor assembly coupled with the wheel; anda stator coupled with the second portion and surrounded by the rotor assembly, the stator configured to drive the rotor assembly with electromotive force. 2. The personal vehicle system of claim 1, wherein the electric wheel motor is a first electric wheel motor, and the wheel is a first wheel, the personal vehicle system further comprising: a second electric wheel motor contained by a second wheel, the second wheel coupled with the second portion. 3. The personal vehicle system of claim 2, further comprising a control system configured to coordinate operation of the first electric wheel motor and the second electric wheel motor. 4. The personal vehicle system of claim 3, wherein the control system activates and regulates power input, speed, and torque of the first electric wheel motor and the second electric wheel motor as a function of a weight distribution of the user on the deck. 5. The personal vehicle system of claim 3, wherein the control system coordinates the operation of the first electric wheel motor and the second electric wheel motor as a function of current. 6. The personal vehicle system of claim 3, further comprising a wireless mobile device and a wireless mobile application executed by the wireless mobile device; wherein the wireless mobile application is configured to receive information about the operation of the first electric wheel motor and the second electric wheel motor, and wherein the wireless mobile application is further configured to display the information. 7. The personal vehicle system of claim 6, wherein the control system provides calibration parameters to the wireless mobile application, and wherein the wireless mobile application calibrates the calibration parameters of the control system. 8. The personal vehicle system of claim 1, further comprising at least one force sensor within the deck, the at least one force sensor configured to measure a force. 9. The personal vehicle system of claim 8, wherein the force is determined based on weight distribution. 10. The personal vehicle system of claim 8, wherein the force is determined based on a deck displacement strain. 11. The personal vehicle system of claim 8, further comprising a control system configured to control the electric wheel motor as a function of a force output signal from the at least one force sensor. 12. The personal vehicle system of claim 1, further comprising at least one fin on a surface in conductive thermal communication with the rotor assembly, the at least one fin configured to revolve with respect to the rotation of the rotor assembly. 13. A personal vehicle system comprising: a deck having a top surface, wherein the top surface is substantially flat and is of sufficient area to support at least portions of two feet of a user;a pivoting truck coupled to the deck; andan in-wheel motor, wherein a ratio of a length of a torque arm of the in-wheel wheel motor to a length of a total wheel radius of the wheel is greater than 50%, the in-wheel motor comprising: a stator coupled with the truck; anda rotor assembly external to the stator, the rotor assembly coupled with a wheel and in electromagnetic communication with the stator, such that the stator operates to couple the wheel with the truck and to drive the-wheel by non-contact electromotive force via the rotor assembly. 14. The personal vehicle system of claim 13, wherein the stator is a three-phase stator. 15. The personal vehicle system of claim 13, the rotor assembly further comprising a flux ring that is composed of magnetically conductive material. 16. The personal vehicle system of claim 13, the rotor assembly further comprising a permanent magnet. 17. The personal vehicle system of claim 13, wherein the in-wheel motor operates to drive the wheel without external belts or chains, external gears or gear systems, external transmissions or power couplings. 18. A personal vehicle system comprising: a truck: a first portion configured to be coupled to a personal vehicle system; anda second portion that pivots relative to the first portion, the second portion comprising an axle, the axle configured to be rotationally fixed with respect to the second portion; andan electric wheel motor within a wheel, wherein a ratio of a length of a torque arm of the electric wheel motor to a length of a total wheel radius of the wheel is greater than 50%, the electric wheel motor comprising: a rotor assembly;a stator located internal to the rotor assembly and coupled to the axle, at least a portion of the stator surrounding at least a portion of the axle, the stator configured to be rotationally fixed with respect to the axle, the stator further configured to drive the rotor assembly by non-contact electromotive force. 19. The system of claim 18, wherein the stator is in conductive thermal communication with the truck. 20. A personal vehicle system comprising: a truck: a first portion configured to be coupled to a personal vehicle system; anda second portion that pivots relative to the first portion, the second portion comprising an axle, the axle configured to be rotationally fixed with respect to the second portion; andan electric wheel motor within a wheel, the electric wheel motor comprising: a rotor assembly;a stator located internal to the rotor assembly and coupled to the axle, at least a portion of the stator surrounding at least a portion of the axle, the stator configured to be rotationally fixed with respect to the axle, the stator further configured to drive the rotor assembly by non-contact electromotive force; andat least one fin on a surface in conductive thermal communication with the wheel motor, the at least one fin configured to revolve with respect to the rotation of the rotor assembly. 21. The personal vehicle system of claim 1, wherein a ratio of a length of a torque arm of the electric wheel motor to a length of a total wheel radius of the wheel is greater than 60%. 22. The system of claim 20, wherein the stator is in conductive thermal communication with the truck.