Momentum is defined as inertia multiplied by velocity. And velocity has a direction. When a object interacts with other objects they collide and change directions.
An object can have negative momentum if it is moving in the opposite direction to a chosen positive direction. Momentum is a vector quantity that considers both the mass and velocity of an object, so moving in the opposite direction as chosen positive direction can result in negative momentum.
The momentum of an object is in the same direction as its velocity. Momentum is a vector quantity that depends on both an object's mass and its velocity. When an object moves in a certain direction, its momentum points in the same direction as its velocity.
You can change the amount of momentum an object has by changing its mass, velocity, or direction of motion. Increasing the object's mass or velocity will increase its momentum, while changing its direction will affect the direction of its momentum.
Momentum is a vector quantity that is proportional to velocity. The direction of momentum is the same as the direction of velocity, but momentum includes the mass of the object in addition to its velocity.
Momentum is a vector quantity because it has both magnitude and direction. In physics, momentum is defined as the product of an object's mass and its velocity, and its direction is always the same as the direction of the velocity of the object. As a result, momentum is treated as a vector with both magnitude (the amount of momentum) and direction.
Momentum is mass x velocity; velocity has a direction, therefore momentum has a direction.Momentum is mass x velocity; velocity has a direction, therefore momentum has a direction.Momentum is mass x velocity; velocity has a direction, therefore momentum has a direction.Momentum is mass x velocity; velocity has a direction, therefore momentum has a direction.
An object can have negative momentum if it is moving in the opposite direction to a chosen positive direction. Momentum is a vector quantity that considers both the mass and velocity of an object, so moving in the opposite direction as chosen positive direction can result in negative momentum.
The momentum of an object is in the same direction as its velocity. Momentum is a vector quantity that depends on both an object's mass and its velocity. When an object moves in a certain direction, its momentum points in the same direction as its velocity.
You can change the amount of momentum an object has by changing its mass, velocity, or direction of motion. Increasing the object's mass or velocity will increase its momentum, while changing its direction will affect the direction of its momentum.
Momentum is a vector quantity that is proportional to velocity. The direction of momentum is the same as the direction of velocity, but momentum includes the mass of the object in addition to its velocity.
Momentum is a vector quantity because it has both magnitude and direction. In physics, momentum is defined as the product of an object's mass and its velocity, and its direction is always the same as the direction of the velocity of the object. As a result, momentum is treated as a vector with both magnitude (the amount of momentum) and direction.
The direction of an object's momentum is the same as its velocity. Momentum is a vector quantity that takes into account both an object's mass and its velocity, so a change in velocity will result in a change in momentum.
Momentum will change if there is a force acting on an object. This change in momentum can occur due to accelerations, decelerations, changes in direction, or interactions with other objects. The magnitude and direction of the momentum change depend on the strength and direction of the force applied.
It means that the momentum increases, decreases, or simply changes its direction. The latter is because momentum is a vector quantity (that is, the direction is relevant). Momentum is defined as the product of velocity and mass.
An object's momentum is in the same direction as its velocity. Momentum is a vector quantity defined as the product of an object's mass and its velocity, so it carries the same direction as the object's motion.
Yes. It is considered a vector.Yes. It is considered a vector.Yes. It is considered a vector.Yes. It is considered a vector.
The units are KgMs- why? Velocity is a vector Quantity and mass is a scalar quantity.