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angular momentum
Proportional.For linear movement, Newton's Second Law states that force = mass x acceleration.The equivalent for rotational movement is: torque = (moment of inertia) x (angular acceleration).Proportional.For linear movement, Newton's Second Law states that force = mass x acceleration.The equivalent for rotational movement is: torque = (moment of inertia) x (angular acceleration).Proportional.For linear movement, Newton's Second Law states that force = mass x acceleration.The equivalent for rotational movement is: torque = (moment of inertia) x (angular acceleration).Proportional.For linear movement, Newton's Second Law states that force = mass x acceleration.The equivalent for rotational movement is: torque = (moment of inertia) x (angular acceleration).
Multiplying Gears- a device that increases the rotational speedReducing Gears- a device that decreases the rotational speed
tangential speed is directly proportional to rotational speed at nay fixed distance from the axis of rotation
The rotational surface speed at the equator is approximately 1000 mph
Both. They transfer power by transmitting torque at a rotational speed.
Rotational speed is the propeller slipstream and engine torque all contrive to make the airplane turn left during takeoff.
Torque
A dynamometer is a device that measures rotational speed. A torsion dynamometer is a dynamometer that measures torque, or the force with which something rotates.
For metric conversion:- P=Power, kW T=Torque, Nm N=Engine rotational speed, rpm P=T*pi*N/30000 or approximately T*N/9550 1 PS = 0.73549875 kW = 0.986320 hp for imperial conversion:- P=Power, horsepower T=Torque, foot-pounds N=Engine rotational speed, rpm P=T*N/5252 The "magic numbers" are a result of the conversion steps from rotational to linear dynamics.
rotational energy
Simply put 'torque' is a measure of rotational force.
Stoll condition of a motor or Stall torque is the torque which is produced by a device when the output rotational speed is zero. It may also mean the torque load that causes the output rotational speed of a device to become zero - i.e. to cause stalling.Stalling is a condition when the motor stops rotating.This condition occurs when the load torque is greater than the motor shaft torque i.e. break down condition.In this condition the motor draws maximum current but the motor does not rotate.The current is called as Stalling current.
Not exactly,torque is the force that affects rotational motion; the greater the torque, the greater the change in rotational motion. It is always specified with regard to the axis of rotation.
At any distance from the axis of rotation, the linear speed of an object is directly proportional to the rotational speed. If the linear speed increases, the rotational speed also increases.
A shunt-wound DC motor can maintain its speed well when the load torque varies.
the units for rotational speed are radians / sec or degrees / sec