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The law of conservation states that the total momentum does not change when it is transferred.
conservation of momentum
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The Law of Conservation of Energy established the Constancy of Momentum. The aw of Conservation of Energyb gives the sum of forces is zero: F1 + F2 = d(P1 + P2)/dt = 0 proves that P1 + P2 = constant.
The law of conservation states that the total momentum does not change when it is transferred.
conservation of momentum
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The Law of Conservation of Energy established the Constancy of Momentum. The aw of Conservation of Energyb gives the sum of forces is zero: F1 + F2 = d(P1 + P2)/dt = 0 proves that P1 + P2 = constant.
False.
That means that a quantity, called "momentum", can be defined, and that this quantity does not change over time. In any collision, for example, the momentum (which is defined as mass x velocity) of individual objects can change, but the total momentum does not change. Please note that since velocity is a vector quantity, momentum is also a vector quantity.
False - wrong law.
Billiard balls collide quite elastically. Ideally, the total change in momentum is zero.
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.
The Law of Conservation of Momentum, which derives from Newton's second and third laws of motion.
No. The "total momentum" is related to Newton's Third Law. No, that is the law of conservation of momentum.