Hand held mixing device

What is claimed is: 1. A hand held mixing device comprising a body with a pair of openings providing access to a pair of hubs that are adapted to receive a pair of accessories, the hand held mixing device further comprising: an array of sensors disposed and aligned along a hub, the array of sensors being adapted to differentiate between a first accessory having a first shaft and a second accessory having a second shaft by detecting a physical difference between the first and the second shaft when received in the hub; the array of sensors communicating a signal to a processor, wherein a presence of a physical attribute of the first or second shaft causes one of the sensors to send a first signal or a first switch state to the processor, and wherein an absence of a physical attribute of the first or second shaft causes one of the sensors to send a second signal or a second switch state to the processor, wherein the first signal or first switch state is different to the second signal or second switch state; the processor altering an operation of the hand held mixing device in response to the signal communicated to the processor; and the hand held mixing device further including an ejection mechanism for ejecting the first and second shafts from the pair of hubs, the ejection mechanism being driven by a lever directly operable by a user. 2. The hand held mixing device of claim 1 , wherein: the signal communicated to the processor is made by an electrical switch that communicates a first switch state to the processor when the first shaft is received in a selected one of the pair of hubs and that communicates a second switch state to the processor when the second shaft is received in the selected one of the pair of hubs. 3. The hand held mixing device of claim 2 , wherein: the electrical switch includes a mechanical follower which changes position in response to the first and second shafts, the change in position causing a change between the first and second switch states. 4. The hand held mixing device of claim 2 , wherein: the at least one sensor includes an optical emitter for emitting a light and an optical sensor for detecting the light emitted by the optical emitter; and the electrical switch is activated in response to whether the first or second shaft is obscuring the light that is being emitted from the optical emitter toward the optical sensor. 5. The hand held mixing device of claim 1 , wherein: the operation altered is a motor speed of the first or second accessory based on a user selection. 6. The hand held mixing device of claim 1 , wherein: the operation altered is a display of information on a user interface. 7. The hand held mixing device of claim 3 , wherein the mechanical follower is a ball detent mechanism. 8. The hand held mixing device of claim 3 , wherein the mechanical follower is a pivoting lever arm. 9. The hand held mixing device of claim 1 , further including a source of illumination disposed in the body for illuminating an area below the accessories. 10. The hand held mixing device of claim 1 , wherein the body includes one or more air vents for cooling internal components within the body. 11. The hand held mixing device of claim 1 , wherein the ejection mechanism is driven by upward movement of the lever. 12. The hand held mixing device of claim 11 , further including a handle, and wherein the lever is disposed underneath the handle. 13. The hand held mixing device of claim 1 , wherein the ejection mechanism is arranged to eject two accessories at a time. 14. The hand held mixing device of claim 1 , wherein the device further includes a feature which upon activation ceases operation of the device and upon reactivation returns operation of the device to a prior setting. 15. The hand held mixing device of claim 6 , further comprising a sensor arranged to detect an identity of the accessory, and to communicate a signal to the user interface, and wherein the user interface displays an icon, image, or text indicative of the identified accessory. 16. A hand held mixing device, comprising: a body with a first opening having a first drive hub and a second opening having a second drive hub, the first and second drive hubs each arranged to receive a first accessory and a second accessory; a first series of sensors disposed in and aligned along the first drive hub and a second series of sensors disposed in and aligned along the second drive hub, the first and second series of sensors each arranged to differentiate between the first accessory having a first shaft and the second accessory having a second shaft by detecting a physical difference between the first shaft and the second shaft when received in either the first drive hub or the second drive hub; each of the first and second drive hubs arranged to drive the first accessory and the second accessory; the first and second series of sensors arranged to communicate a signal to a processor; the processor arranged to alter an operation of the hand held mixing device in response to the signal communicated to the processor by the first and second series of sensors; the hand held mixing device further including an ejection mechanism for ejecting the first and second shafts from the first and second drive hubs, the ejection mechanism being driven by a lever operable by a user. 17. The hand held mixing device of claim 16 , wherein each of the first and second series of sensors is a mechanical sensor configured to detect a groove or protrusion on the first or second shaft. 18. The hand held mixing device of claim 17 , wherein the mechanical sensor includes a ball detent mechanism. 19. The hand held mixing device of claim 17 , wherein the mechanical sensor includes a pivoting lever arm. 20. The hand held mixing device of claim 16 , wherein each of the first and second series of sensors is an optical sensor configured to detect a length of the protrusion on the first or second shaft. 21. A hand held mixing device having a body with a pair of openings providing access to a pair of hubs that are adapted to receive a pair of accessories, the hand held mixing device comprising: at least one sensor for differentiating between a first accessory having a first shaft and a second accessory having a second shaft by detecting a physical difference between the first and the second shaft when received in a hub; a user interface configured to allow user selection of a motor speed of the first or second accessory; the at least one sensor communicating a signal to a processor; the processor altering an operation of the hand held mixing device in response to the signal communicated by the at least one sensor; and wherein the processor is further arranged to alter the operation of the hand held mixing device independent of the user selection made on the user interface. 22. The hand held mixing device of claim 21 , wherein the user interface includes a scroll wheel. 23. The hand held mixing device of claim 21 , wherein altering the operation of the hand held mixing device comprises altering the motor speed. 24. The hand held mixing device of claim 21 , wherein the at least one sensor comprises a mechanical sensor or an optical sensor. 25. The hand held mixing device of claim 24 , wherein the mechanical sensor comprises a ball detent mechanism or a pivoting lever arm.