Work done is the amount of energy transferred by a force acting through a distance. It is a scalar quantity.
No, power is not a vector quantity. It is a scalar quantity that represents the rate at which work is done or energy is transferred.
Power can be scalar or vector, e.g d/dt torque = vector power; d/dt mcV = mcA a vector power.
No, power is not a vector quantity. It is a scalar quantity because it only has magnitude, not direction. Power is defined as the rate at which work is done or energy is transferred.
Work done is a scalar quantity. It is defined as the product of force and distance in the direction of the force, and does not have a direction associated with it.
No, work is not a vector quantity. It is a scalar quantity that represents the transfer of energy when a force is applied over a distance.
No, power is not a vector quantity. It is a scalar quantity that represents the rate at which work is done or energy is transferred.
Work is a scalar quantity.
Electric potential is a scalar quantity since work done and charge are scalars
Power can be scalar or vector, e.g d/dt torque = vector power; d/dt mcV = mcA a vector power.
No, power is not a vector quantity. It is a scalar quantity because it only has magnitude, not direction. Power is defined as the rate at which work is done or energy is transferred.
Work done is a scalar quantity. It is defined as the product of force and distance in the direction of the force, and does not have a direction associated with it.
No, work is not a vector quantity. It is a scalar quantity that represents the transfer of energy when a force is applied over a distance.
Power momentum is a scalar quantity, as it is a measure of the rate at which work is done or energy is transferred. It does not have a direction associated with it, unlike vector quantities such as velocity or force.
Work is a scalar quantity, as it is described by a single value (the amount of energy transferred) and does not have a direction associated with it.
vector, power= work/time and work= force * distance, force is vector.
Work is the product of a force and a displacement. Both of those are vectors. There are two ways to multiply vectors. One of them produces another vector, the other produces a scalar. The calculation for 'work' uses the scalar product. The procedure is: (magnitude of one vector) times (magnitude of the other vector) times (cosine of the angle between them).
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