If mass doubles, momentum stays the same, but the velocity is half.
momentum = mass * velocity
mass1 * velocity1 = mass2 * velocity2
When velocity doubles, the momentum also doubles because momentum is directly proportional to velocity in a linear relationship. Momentum is equal to mass multiplied by velocity, so when velocity doubles, momentum will also double as long as the mass remains constant.
if you add more weight or mass to any thing, it will incease its momentum. lets say you are grocery shopping and you add 5 bags of cat liter to your cart. inertia will increase and your momentum will increase. it easy, just picture it in you head. your welcome!!!!
When the mass decreases, and all other factors remain constant, the momentum of an object will also decrease since momentum is directly proportional to mass. This is because momentum is defined as the product of mass and velocity.
If mass increases, momentum will also increase, assuming velocity remains constant. Momentum is the product of mass and velocity, so an increase in mass would lead to a proportional increase in momentum with a constant velocity.
If the volume is tripled while keeping the same mass, the density of the object will decrease. This means that the same amount of mass is distributed over a larger volume, resulting in a lower density.
When velocity doubles, the momentum also doubles because momentum is directly proportional to velocity in a linear relationship. Momentum is equal to mass multiplied by velocity, so when velocity doubles, momentum will also double as long as the mass remains constant.
if you add more weight or mass to any thing, it will incease its momentum. lets say you are grocery shopping and you add 5 bags of cat liter to your cart. inertia will increase and your momentum will increase. it easy, just picture it in you head. your welcome!!!!
When the mass decreases, and all other factors remain constant, the momentum of an object will also decrease since momentum is directly proportional to mass. This is because momentum is defined as the product of mass and velocity.
If mass increases, momentum will also increase, assuming velocity remains constant. Momentum is the product of mass and velocity, so an increase in mass would lead to a proportional increase in momentum with a constant velocity.
If the volume is tripled while keeping the same mass, the density of the object will decrease. This means that the same amount of mass is distributed over a larger volume, resulting in a lower density.
When the mass of a moving object is doubled and its speed remains the same, its momentum also doubles. Momentum is directly proportional to mass, so doubling the mass will result in a doubling of the momentum regardless of the speed.
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.
If the momentum of an object changes while its mass remains constant, then its velocity must have changed accordingly. This relationship is described by the equation momentum = mass x velocity. So, if momentum changes without a change in mass, then velocity must have changed.
If the mass of an object increases, its momentum also increases. Momentum is directly proportional to mass, so an increase in mass will result in a proportional increase in momentum, given that the velocity remains constant.
Momentum = mass x velocity. Here velocity is constant. So momentum is directly proportional to the mass. Hence as mass decreases momentum too decreases proportionaly. If mass is reduced to half of its original then momentum also gets reduced to half of its original
If the velocity is doubled while the mass remains the same, the kinetic energy of the object will increase by a factor of four. This is because kinetic energy is proportional to the square of the velocity. The momentum of the object will also double as momentum is proportional to velocity.
It increases