if velocity increases, so does momentum. and vice versa
momentum = mass x velocity
increasing mass or velocity or both will increase momentum
As the velocity decreases, the momentum increases. Mass is the matter inside of something and momentum is how hard it is to stop something. Therefore momentum needs mass to function because without mass there would be no momentum. So think of the sentence above like this: velocity ( a measure of momentum) decreases, the momentum (including mass inside an object) goes up therefore making the mass increase while the velocity decreases.
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.
Yes, mass will affect momentum in a collision or in anything else. Any object with mass and non-zero velocity will have momentum. Mass is directly proportional to momentum. Double the mass of an object moving with a given velocity and the momentum doubles.
No, momentum is directly proportional to velocity, and in the same direction..
ACC TO FORMULAE p=mv2 WHERE p=MOMENTUM, m=MASS, v=VELOCITY IF MASS REMAIN CONSTANT , THEN CHANGE IN MOMENTUM IS DUE TO CHANGE IN VELOCITY. THEREFORE MOMENTUM IS DIRECTLY PROPOTIONAL TO VELOCITY.
if velocity increases, so does momentum. and vice versa momentum = mass x velocity increasing mass or velocity or both will increase momentum
The mass and velocity of an object are two factors that affect its momentum. An object with higher mass or greater velocity will have greater momentum.
force and acceleration
force and acceleration
An object's momentum is affected by its mass and velocity. The momentum of an object increases as either its mass or velocity increases.
The rate of momentum is affected by the mass of an object and the velocity at which it is moving. An object with more mass or higher velocity will have a greater momentum.
The momentum of an object is affected by its mass and velocity. Momentum is directly proportional to both mass and velocity, so an increase in either will result in an increase in momentum, and vice versa.
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.
The two factors that affect an object's momentum are its mass and its velocity. Momentum is calculated as the product of an object's mass and its velocity, so changes in either of these factors will impact the momentum of the object.
Momentum = mass x velocity. If you divide out the velocity you get mass.
Momentum is the product of an object's mass and velocity, so a rocket with high momentum will have more force upon launch. Velocity is the speed at which the rocket is moving, which affects how quickly it accelerates and gains height. Both momentum and velocity are crucial for determining the rocket's trajectory and performance during launch.
You can determine mass using momentum and velocity by using the formula: momentum = mass x velocity. Rearrange the formula to solve for mass as mass = momentum/velocity. Plug in the values for momentum and velocity to calculate the mass.