Yes. The "direction" of the vector is along the axis of rotation.
Yes. The "direction" of the vector is along the axis of rotation.
Yes. The "direction" of the vector is along the axis of rotation.
Yes. The "direction" of the vector is along the axis of rotation.
Since torque is a force, and as such has a direction, it is a vector.
No, torque is a vector quantity that does not depend on the choice of origin. Torque is defined by the force applied to an object and the distance from the point of rotation, regardless of where the origin is located.
A vector quantity measures the movement of a particular object in a given direction. An example of a vector quantity is velocity.
Torque is got by the cross product of two vectors namely force vector and perpendicular radius vector Tau (torque) = r X F But work is got by the scalar product of force vector and displacement vector Hence W = F . S
Any vector quantity does. Examples of vector quantities include but are not limited to . . . - Displacement - Velocity - Acceleration - Torque - Force - Electric field - Momentum - Poynting vector
Yes, It is in fact vector energy E=RxF also called Torque T=RxF.
Power can be scalar or vector, e.g d/dt torque = vector power; d/dt mcV = mcA a vector power.
Examples of vector quantity are displacement, velocity, acceleration, momentum, force, E-filed, B-field, torque, energy, etc.
We don't think so.The definition of torque is (strength of the force) x (distance of the force from the axis).It's going to be pretty difficult to evaluate that quantity if the axis isn't specified.
A vector quantity.
displacement is a vector quantity
A vector quantity is any quantity in which a direction is relevant. Some examples include position, velocity, acceleration, force, momentum, rotational momentum (the vector is defined to point in the direction of the axis in this case), torque, etc.