Torque is vector energy and moment is the time integral of force.
Torque is a movement force. Moment is a static force.Torque is often presented as Nm/revolution and moment is typically presented as Nm.The words "torque" and "moment" (of force) mean the same.However, "torque" tends to be used when there is an axle or pivot to be turned around, while "moment" tends to be used in essentially non-rotational situations, such as analysis of forces on a beam.
torque. Torque = force * moment arm
twinsting moment
M = [rF] - is a formula for produced moment calculation.
because spanner has a longer moment arm and torque depends upon moment arm greater the moment greater will be the torque produced so it is easy to unscrew a tight nut using longer spanner
Torque is vector energy and moment is the time integral of force.
Torque is nothing but a Twisting Moment.
Torque is a movement force. Moment is a static force.Torque is often presented as Nm/revolution and moment is typically presented as Nm.The words "torque" and "moment" (of force) mean the same.However, "torque" tends to be used when there is an axle or pivot to be turned around, while "moment" tends to be used in essentially non-rotational situations, such as analysis of forces on a beam.
torque. Torque = force * moment arm
torque or moment
turning effect of body
twinsting moment
Torque is the cars power, horsepower is only the rate at which the torque is produced.
The torque which is produced during the starting of motor is simply called as starting torque.
M = [rF] - is a formula for produced moment calculation.
In order for a force to produce a torque, either all of it, or a part of it (component) must act perpendicular to the moment arm. If, as in your case, all of the force is parallel to the moment arm then the force can not produce a torque. So the answer is; the torque is zero.