A coil rotating perpendicularly to a uniform magnetic field contains 350 turns and has an area per turn of 2.0 x 10^-3 m^2. The magnetic field is 0.13 T, and the current in the coil is 0.16 A. A break shoe is pressed perpendicularly against the shaft to keep the coil from turning. The coefficient of static friction between the shaft and the brake shoe is 0.79. The radius of the shaft is 0.011 m. What is the magnitude of the minimum normal force that the brake shoe exerts on the shaft?
A coil rotating perpendicularly to a uniform magnetic field contains 350 turns and has an area per turn of 2.0 x 10^-3 m^2. The magnetic field is 0.13 T, and the current in the coil is 0.16 A. A break shoe is pressed perpendicularly against the shaft to keep the coil from turning. The coefficient of static friction between the shaft and the brake shoe is 0.79. The radius of the shaft is 0.011 m. What is the magnitude of the minimum normal force that the brake shoe exerts on the shaft?
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A coil rotating perpendicularly to a uniform magnetic field contains 350 turns and has an area per turn of 2.0 x 10^-3 m^2. The magnetic field is 0.13 T, and the current in the coil is 0.16 A. A break shoe is pressed perpendicularly against the shaft to keep the coil from turning. The coefficient of static friction between the shaft and the brake shoe is 0.79. The radius of the shaft is 0.011 m. What is the magnitude of the minimum normal force that the brake shoe exerts on the shaft?
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