It is a vector. It is the directed straight line distance, or displacement, between two points on the path of movement (even though the actual path may be curved) divided by the actual time taken to move from one point to the other.
The reason that it is a vector is that the direction traveled is important: it is possible that part of the motion was in the opposite direction from other parts.
velocity is a vector and speed is scalar. Velocity has magnitude and directions, with magnitude being speed. The magnitude of average velocity and average speed is the same.
Direction. Velocity is a vector, speed is a scalar.
No. It is a speed (a scalar) but not a velocity (a vector).
Velocity is a vector, and so it has two components -- magnitude (speed) and direction. Speed is a scalar, and it is the magnitude of velocity, a vector.
A scalar times a vector is a vector.
Velocity is always a scalar, instantaneous or average doesn't matter.
"Speed" is a scalar; "velocity" is a vector.
vector
Velocity is a vector.
velocity is a vector and speed is a scalar.
velocity is a vector and speed is a scalar.
In physics:If you talk about speed, that refers to a scalar quantity.If you talk about velocity, that refers to a vector quantity.
I think Scalar
Momentum is a vector quantity because the definition of momentum is that it is an object's mass multiplied by velocity. Velocity is a vector quantity that has direction and the mass is scalar. When you multiply a vector by a scalar, it will result in a vector quantity.
A vector. Since velocity is a vector, moment, which is mass x velocity, is also a vector.
velocity is a vector and speed is scalar. Velocity has magnitude and directions, with magnitude being speed. The magnitude of average velocity and average speed is the same.
no its a vector quantity,not a scalar quantity,bcz still it z a velocity bt NT a speed On a typical journey the average velocity is the straight-line distance between the start and finish, divided by the time taken, and it also has a direction. The average speed is the actual distance run, divided by the speed. The average speed might not be equal to the magnitude of the average velocity. For example on a round trip the average speed might be 40 mph, while the average velocity is zero.