Electro-magnetic and centrifugal clutch

What is claimed is: 1. A transmission comprising: a shaft supported for rotation about an axis; an inner race fixed for rotation with the shaft; a gear supported for rotation about the axis; an outer race fixed for rotation with the gear, the outer race defining a cam surface; a non-rotating coil configured to establish a magnetic field in the inner race in response to electric current; and a rocker assembly including a pawl supported in the inner race to pivot between an engaged position and a disengaged position such that contact between the cam surface and the pawl in the engaged position prevents relative rotation between the inner and outer races in at least one direction, a post supported in the inner race to slide between a first and a second position such that in the first position the post forces the pawl into the disengaged position, and a shoe supported by the post and configured to pivot about a pin within the inner race, and with respect to the inner race in response to the magnetic field to slide the post into the second position wherein centrifugal force moves the pawl into the engaged position. 2. The transmission of claim 1 , wherein the rocker assembly further includes a biasing member disposed at a first end of the post. 3. The transmission of claim 1 , wherein the shoe has a first end and a second end wherein the second end has a thickness greater than the first end, the second end being configured to interact with the magnetic field. 4. A clutch comprising: a first race; a second race defining a cam surface; a pawl supported in the first race to pivot between an engaged position and a disengaged position such that contact between the cam surface and the pawl in the engaged position prevents relative rotation between the first and second races in at least one direction; a post supported in the first race to slide between a first and a second position such that in the first position the post forces the pawl into the disengaged position; and a shoe supported in the first race by a pin and being configured to pivot with respect to the first race in response to a magnetic field to slide the post into the second position. 5. The clutch of claim 4 , wherein the engaged position of the pawl prevents relative rotation of the first and second races in exactly one direction. 6. The clutch of claim 4 further comprising a non-rotating coil configured to establish a magnetic field in the first race in response to electric current. 7. The clutch of claim 4 , wherein the first race is disposed radially inside the second race. 8. The clutch of claim 4 , wherein the pawl has a center of gravity located such that centrifugal force causes the pawl to pivot about a pivot point into the engaged position when the post is in the second position. 9. A clutch comprising: a pawl supported in a race to pivot between engaged and disengaged positions; a post supported in the race such that in a first position the post forces the pawl into the disengaged position; a shoe configured to pivot with respect to the race in response to a magnetic field to slide the post into a second position; and a pin arranged to connect the shoe to the post. 10. The clutch of claim 9 , wherein the shoe is configured to pivot about the pin in response to the magnetic field. 11. The clutch of claim 9 , wherein the pin is attached at substantially a center of the shoe to substantially a center of the post. 12. The clutch of claim 9 , wherein the pin is attached offset from a center of the shoe and centrally on the post. 13. The clutch of claim 9 , wherein the pin is attached offset from a center of the post and centrally on the shoe. 14. The clutch of claim 9 , wherein the pin is attached offset from a center of the shoe and offset from a center of the post.