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The total momentum of a system is a measure of motion of one thing equal to the product of the same mass and velocity. This can also be called linear momentum as well as total momentum.
Momentum would be conserved.
The angular momentum of a system is not conserved when a net external torque acts upon the system.
Well... the law of conservation of momentum states that "In a system consisting of bodies on which no outside forces are acting; the total momentum of the system remains the same."
According to the law of conservation of momentum which states that in a closed system momentum before collision is equal to the momentum after collision.
The total momentum of a system is a measure of motion of one thing equal to the product of the same mass and velocity. This can also be called linear momentum as well as total momentum.
For momentum to be conserved in a system it must
The linear momentum of a system of particles is simply the vector sum of the linear momentum of each of the particles.
Momentum would be conserved.
The angular momentum of a system is not conserved when a net external torque acts upon the system.
Well... the law of conservation of momentum states that "In a system consisting of bodies on which no outside forces are acting; the total momentum of the system remains the same."
More momentum would mean that the team has recently won several games or matches, and opposite for less momentum.
Momentum of the system is conserved.Keep in mind kinetic energy of the system is not conserved
According to the law of conservation of momentum which states that in a closed system momentum before collision is equal to the momentum after collision.
A body's resistance to change position or course.
After a collision,The initial momentum of a system is equal to final momentum. m1V1=m2V2
It's the mass of a object on its velocity (the velocity is a vector and as result of multiplication of a scalar (mass) on a vector (velocity) you get a vector (momentum). Intuitively, momentum is the property of a body which enables it to resist a force.