Motor magnet placement to alter generated sound

What is claimed is: 1. An outrunner brushless direct current (DC) motor, comprising: a base; a stator affixed to the base and including a plurality of electromagnetic coils; a rotor having an interior surface and an exterior surface that form a cavity and substantially encompass the stator, the rotor including: a plurality of magnets affixed to the interior surface, wherein: each adjacent pair of the plurality of magnets is separated from each other by different respective distances; a sensor affixed to the base; and a controller configured to determine a current to apply to each of the plurality of electromagnetic coils based at least in part on a detection, by the sensor, of a distance between an adjacent pair of the plurality of magnets; wherein the controller is electrically coupled to at least one of the plurality of electromagnetic coils of the stator and in communication with the sensor, the controller configured to at least: determine the distance between the adjacent pair of the plurality of magnets based at least in part on indications of presence or absence of magnets received from the sensor. 2. The outrunner brushless DC motor of claim 1 , wherein: a first magnet and a second magnet are separated by a first distance; the second magnet and a third magnet are separated by a second distance; the third magnet and a fourth magnet are separated by a third distance; the fourth magnet and a fifth magnet are separated by a fourth distance; the fifth magnet and a sixth magnet are separated by a fifth distance; the sixth magnet and a seventh magnet are separated by a sixth distance; the seventh magnet and an eighth magnet are separated by a seventh distance; the eighth magnet and a ninth magnet are separated by an eighth distance; and each of the first distance, the second distance, the third distance, the fourth distance, the fifth distance, the sixth distance, the seventh distance, and the eighth distance are different. 3. A brushless direct current (DC) motor, comprising: a base; a stator including a plurality of electromagnetic coils; a rotor including a plurality of magnets and configured to rotate in response to a current applied to the stator, wherein distances between each respective adjacent pair of the plurality of magnets are different from each other; a sensor affixed to the base; and a controller configured to determine a current to apply to each of the plurality of electromagnetic coils based at least in part on a detection, by the sensor, of a distance between at least two of the magnets of the plurality of magnets; wherein the controller is electrically coupled to at least one of the plurality of electromagnetic coils of the stator and in communication with the sensor, the controller configured to at least: determine the distance between the at least two of the magnets based at least in part on indications of presence or absence of magnets received from the sensor. 4. The brushless DC motor of claim 3 , wherein a first distance and a second distance comprise respective circumferential distances between at least two of the plurality of magnets and at least two other magnets of the plurality of magnets. 5. The brushless DC motor of claim 4 , wherein one of the at least two other magnets includes one of the at least two of the plurality of magnets. 6. The brushless DC motor of claim 3 , wherein the rotor is positioned around and substantially encompasses the stator. 7. The brushless DC motor of claim 3 , wherein the stator is positioned around and substantially encompasses the rotor. 8. The brushless DC motor of claim 3 , wherein: the sensor is positioned adjacent a first electromagnetic coil of the plurality of electromagnetic coils of the stator, and configured to detect a presence or an absence of a magnet of the plurality of magnets of the rotor. 9. The brushless DC motor of claim 8 , wherein: the controller is electrically coupled to the first electromagnetic coil and in communication with the sensor, the controller configured to apply a current to the first electromagnetic coil in response to an indication from the sensor indicating a presence of a magnet of the plurality of magnets of the rotor. 10. The brushless DC motor of claim 3 , wherein: a first electromagnetic coil of the plurality of electromagnetic coils and a second electromagnetic coil of the plurality of electromagnetic coils are separated by a first distance; and the second electromagnetic coil of the plurality of electromagnetic coils and a third electromagnetic coil of the plurality of electromagnetic coils are separated by a second distance that is different than the first distance. 11. The brushless DC motor of claim 3 , wherein: the sensor is configured to detect a presence or an absence of a magnet; and the controller is further configured to at least: determine a position of the rotor based at least in part on a determination that the distance between the at least two of the magnets corresponds to a known distance. 12. The brushless DC motor of claim 11 , wherein the controller is further configured to at least: determine a current pattern for the at least one of the plurality of electromagnetic coils based on the determined position of the rotor.