False. Vector quantities have both magnitude and direction (such as velocity and force) while scalar quantities only have magnitude (such as speed and mass).
The product of scalar and vector quantity is scalar.
No, adding a direction to a scalar quantity does not make it a vector quantity. A vector quantity must have both magnitude and direction inherently associated with it, while a scalar quantity only has magnitude. Simply adding a direction to a scalar quantity does not change its fundamental nature.
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.
No, a vector quantity has both magnitude and direction, while a scalar quantity has only magnitude. Examples of vector quantities include force and velocity, which need both the size and direction to describe them accurately. Scalars like mass or temperature only have a magnitude.
False. Vector quantities have both magnitude and direction (such as velocity and force) while scalar quantities only have magnitude (such as speed and mass).
The product of scalar and vector quantity is scalar.
No, adding a direction to a scalar quantity does not make it a vector quantity. A vector quantity must have both magnitude and direction inherently associated with it, while a scalar quantity only has magnitude. Simply adding a direction to a scalar quantity does not change its fundamental nature.
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.
No, a vector quantity has both magnitude and direction, while a scalar quantity has only magnitude. Examples of vector quantities include force and velocity, which need both the size and direction to describe them accurately. Scalars like mass or temperature only have a magnitude.
Yes, momentum is a vector quantity because it has both magnitude and direction. Momentum is calculated as the product of an object's mass and its velocity, and the direction of momentum is the same as the direction of the object's velocity.
Scalar addition involves adding a scalar quantity to each element of a vector. This is done by adding the scalar to the magnitude of the vector without changing its direction. The result is a new vector that represents the original vector displaced by the magnitude of the scalar in the same direction.
Scalar because you give only the distance, not direction as well. It would also be scalar if you had quoted only the speed (not velocity), for the same reason. A vector has magnitude and direction.
When a scalar quantity(if it has positive magnitude) is multiplies by a vector quantity the product is another vector quantity with the magnitude as the product of two vectors and the direction and dimensions same as the multiplied vector quantity e.g. MOMENTUM
The formula for momentum is: momentum = mass x velocity. Momentum is a vector quantity and its direction is the same as the direction of the velocity of the object.
No, momentum is a vector quantity because it has both magnitude and direction. It is defined as the product of an object's mass and its velocity, with the direction determined by the direction of the velocity.
A vector has magnitude and direction. A scalar has magnitude only. A car moving 60 mph North has a specific amouunt of kinetic energy, according to the formula KE = 1/2 * mass * velocity squared. If the car is moving 60 mph South is the KE the same?? ..Yes! Energy is a scalar! Nothing squared is a vector!! Length has direction. area does not