You have more or less described a law of physics known as conservation of momentum, which is not the same thing as the law of universal gravitation. The law of universal gravitation describes the way mass attracts other mass, and the law of conservation of momentum tells us that momentum is neither created nor destroyed. These two laws are not connected.
Nothing.
The momentum of individual objects may change but total momentum is conserved.
Total amount of momentum is equal to mass times acceleration?
Acceleration being what results when there is a resultant force.
That's the "Law of Conservation of Linear Momentum".
law of conservation of momentum
conservation of momentum
Law of conservation of momentum .
False - wrong law.
The law of conservation states that the total momentum does not change when it is transferred.
False $manning boi the great$
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.
Newtons First Law of Motion states that an object with a given momentum will continue to posses that same momentum until the object is acted on by a force in which case it will undergo a change in momentum. Inertia is a measure of an objects tendency to resist a change in momentum. Massive bodies have a large inertia. If a massive body is in motion its momentum is given by the product of the mass and the velocity of that body. Newtons first law says that if a force acts on this body its momentum will change. But since the body has a large inertia this change is small. For example, if a small space pebble collides with a large asteroid that has a constant velocity and thus constant momentum, the force is small relative to the inertia of the asteroid so the momentum only changes a little bit.
False.
False - wrong law.
law of preservation of momentum
The law of conservation states that the total momentum does not change when it is transferred.
It is called the momentum-impulse theorem and states that an impulse will change the momentum of an object. For example, if you drop an object when it hits the ground an impulse occurs. The momentum of the object also changes. Jnet = deltap, where deltap is the change in momentum.
False $manning boi the great$
The total momentum before the collision is the same as the total momentum after the collision. This is known as "conservation of momentum".
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.
I don't think it's the law of momentum that's states that. It's the law of conservation that states that energy cannot be created or destroyed, but can change from one form to another. The law of the conservation of linear momentum states that when the vector sum of the external foreces is equal to zero, the linear momentum of that system remains constant.
No. Newton's first law of motion states that the momentum of a system is conserved as long as there's no external force being applied on the system.
Newtons First Law of Motion states that an object with a given momentum will continue to posses that same momentum until the object is acted on by a force in which case it will undergo a change in momentum. Inertia is a measure of an objects tendency to resist a change in momentum. Massive bodies have a large inertia. If a massive body is in motion its momentum is given by the product of the mass and the velocity of that body. Newtons first law says that if a force acts on this body its momentum will change. But since the body has a large inertia this change is small. For example, if a small space pebble collides with a large asteroid that has a constant velocity and thus constant momentum, the force is small relative to the inertia of the asteroid so the momentum only changes a little bit.
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