nope, vectors need to specify a direction of travel.
"Velocity" is a vector quantity. This also applies to instantaneous velocity. If you want the scalar quantity, you talk about "speed".
45 mph is a scalar quantity because it only has magnitude (45) but not direction.
Vector quantities have direction as well as magnitude Vector: -displacement (10 m North) -velocity (100 mph south) Scalar -distance (10 m) -speed (100 mph)
A vector quantity.
Velocity is a vector quantity.
A vector quantity not only has a size, it also has a direction. Velocity is a vector quantity. "30 mph north" and "30 mph east" are different velocities. "Speed" is a part of velocity ... its size alone, without its direction, so speed is not a vector quantity.
"Velocity" is a vector quantity. This also applies to instantaneous velocity. If you want the scalar quantity, you talk about "speed".
45 mph is a scalar quantity because it only has magnitude (45) but not direction.
"30 mph west" is an example of a vector quantity, as it includes both a magnitude (30 mph) and a direction (west). In physics, vector quantities are important because they provide information about both how much and in which direction something is moving. In contrast, a scalar quantity would only provide a magnitude, such as "30 mph" without specifying a direction.
A vector quantity.
Vector quantities have direction as well as magnitude Vector: -displacement (10 m North) -velocity (100 mph south) Scalar -distance (10 m) -speed (100 mph)
displacement is a vector quantity
yes, momentum is a vector quantity.
Velocity is a vector quantity.
True. A vector quantity has both magnitude and direction, while a scalar quantity only has magnitude.
A vector
Momentum is a vector quantity. We know that momentum is the product of mass and velocity, and velocity has direction. That makes velocity a vector quantity. And the product of a scalar quantity and a vector quantity is a vector quantity.