Adjustable dumbbell system having a weight sensor

What is claimed is: 1. An adjustable dumbbell system, comprising: a handle assembly; a plurality of weights selectively fixedly connectable to the handle assembly; a sleeve rotatably coupled to the handle assembly, the rotational position of the sleeve corresponding to a different combination of the plurality of weights fixedly connected to the handle assembly; an indexing wheel rotatably coupled to the handle assembly and arranged to rotate with the sleeve; at least one sensor configured to detect the rotational position of the indexing wheel; and a computing device in communication with the at least one sensor and configured to determine the different combination of the plurality of weights fixedly connected to the handle assembly based on the rotational position of the indexing wheel detected by the at least one sensor. 2. The adjustable dumbbell system of claim 1 , wherein the at least one sensor is positioned on the handle assembly so as to remain in a fixed position relative to the rotation of the indexing wheel. 3. The adjustable dumbbell system of claim 1 , further comprising: a magnet coupled to the indexing wheel, the magnet arranged such that a magnetic field direction of the magnet varies with a rotational position of the indexing wheel; the at least one sensor includes a magnetic sensing portion positioned adjacent to the magnet, the magnetic sensing portion configured to detect the direction of the magnetic field of the magnet; and the at least one sensor detects the rotational position of the indexing wheel based on the detected direction of the magnetic field of the magnet. 4. The adjustable dumbbell system of claim 3 , wherein at least a portion of the magnet is positioned adjacent a hub of the indexing wheel. 5. The adjustable dumbbell system of claim 4 , wherein at least a portion of the magnet is positioned within the hub. 6. The adjustable dumbbell system of claim 5 , wherein at least a portion of the magnet rotates around the axis of rotation of the indexing wheel. 7. The adjustable dumbbell system of claim 4 , wherein the magnet is at least partially exposed. 8. The adjustable dumbbell system of claim 1 , wherein the handle assembly includes a handle operatively associated with the sleeve so as to rotate with the sleeve. 9. The adjustable dumbbell system of claim 1 , further comprising: an end cap; an inner cover; and a bridge connected between the end cap and the inner cover; wherein the at least one sensor is supported from the bridge and positioned between the end cap and the inner cover. 10. The adjustable dumbbell system of claim 9 , wherein: a portion of the at least one sensor extends downward from the bridge; and the at least one sensor is mounted adjacent the end cap. 11. The adjustable dumbbell system of claim 10 , wherein the at least one sensor is aligned with a magnet associated with the indexing wheel. 12. The adjustable dumbbell system of claim 9 , further comprising a selector disc arranged adjacent the end cap and operable to selectively engage at least one of the plurality of weights to selectively fix the at least one weight to the handle assembly, wherein the at least one sensor is positioned between the end cap and the selector disc. 13. The adjustable dumbbell system of claim 1 , wherein: the indexing wheel includes a plurality of teeth arranged along a perimeter of the wheel; the sleeve includes a plurality of teeth arranged along a perimeter of the sleeve; and the teeth of the sleeve are arranged to intermesh with the teeth of the indexing wheel such that rotation of the sleeve causes corresponding rotation of the indexing wheel. 14. A sensing mechanism for an adjustable dumbbell system, comprising: a sleeve rotatably coupled to a handle assembly, the rotational position of the sleeve corresponding to a different weight of the adjustable dumbbell system; an indexing wheel rotatably coupled to the handle assembly and arranged to correspondingly rotate with the sleeve; at least one sensor fixedly connected to the handle assembly, the at least one sensor configured to detect the rotational position of the indexing wheel; and a computing device configured to determine the weight of the adjustable dumbbell system based on the rotational position of the indexing wheel detected by the at least one sensor. 15. The sensing mechanism of claim 14 , further comprising: a magnet coupled to the indexing wheel and configured to change the direction of the magnetic field of the magnet as the indexing wheel rotates; and a magnetic sensing portion positioned adjacent the magnet and configured to detect the direction of the magnetic field of the magnet; wherein the at least one sensor detects the rotational position of the indexing wheel based on the detected direction of the magnetic field of the magnet. 16. The sensing mechanism of claim 15 , wherein at least a portion of the magnet is positioned adjacent a hub of the indexing wheel. 17. The sensing mechanism of claim 16 , wherein at least a portion of the magnet is positioned within the hub. 18. The sensing mechanism of claim 17 , wherein at least a portion of the magnet rotates around the axis of the indexing wheel. 19. The sensing mechanism of claim 16 , wherein the magnet is at least partially exposed. 20. The sensing mechanism of claim 14 , wherein: the indexing wheel includes a plurality of teeth arranged along a perimeter of the wheel; the sleeve includes a plurality of teeth arranged along a perimeter of the sleeve; and the teeth of the sleeve are arranged to couple with the teeth of the indexing wheel such that rotation of the sleeve causes corresponding rotation of the indexing wheel.