The momentum will increase in this case.
The momentum will increase in this case.
The momentum will increase in this case.
The momentum will increase in this case.
The momentum stays the same. The mass increases and the velocity decreases but the momentum stays the same, momentum is conserved.
Beacuse p=mv, where p is momentum, m is mass and v is the velocity; as the velocity of the ball increases, so too does the momentum while the mass remains constant.
mass doubles the object, but if velocity is increased and mass and kinetic energy are kept the same then the object quadruples
Yes, it do. Momentum is (the object's mass) times (its speed).
You don't even have to increase the force.
If there's a force acting on an object, then both its velocity and its acceleration are changing.
Momentum is proportional to velocity. More precisely:momentum = velocity x mass
It increases.
The momentum will increase in this case.
The momentum increases.
Momentum increases.
momentum = mass * velocity As the momentum changes with constant mass, the velocity cahnges.
Linear momentum is proportional to mass and velocity;p = mvThus, increase in mass will increase the linear momentumAngular momentum is similarly related:L = p.rL = mv.r
it decreases
Momentum is defined as mass times velocity, so if the velocity changes, the momentum would naturally also change.
It increases
Momentum increases.
If the mass of an object increases, what happens to the acceleration?
momentum = mass * velocity As the momentum changes with constant mass, the velocity cahnges.
because of momentum and kinetic energy
Mass is proportional to momentum. Momentum is the product of mass and velocity. When mass increases, momentum increases.
Yes The equation for momentum is mass x velocity So if you increase velocity the momentum increases
it's gravity increases
The acceleration of the object increases.
the gravity increases
Linear momentum is proportional to mass and velocity;p = mvThus, increase in mass will increase the linear momentumAngular momentum is similarly related:L = p.rL = mv.r
Acceleration is a net force that is inversely dependent on mass, therefore if an object's mass decreases, acceleration increases.