No, that is Newton's Third Law of Motion.
The Law of Conservation of Momentum is that within a contained set of objects, the total momentum never changes. Objects can only transfer energy to each other, they can never really "get rid" of it.
Equal in magnitude and opposite in direction.
The law of reciprocal actions states that for every action there is an equal and opposite reaction. The law of inertia states that every object in a state of uniform motion tends to remain in that sate of motion unless an eternal force is applied to it.
for every action,there is an equal and opposite reaction
Because every action has an equal and opposite reaction. The action is you running into a wall, and the opposite reaction is you falling down.
The answer is in the categories Isaac Newton
It is closely to Newton's Third Law - since in an action and reaction pair, momentum "gained" by one object will be "lost" by the other.
Action and reaction is equal in magnitude but opposite in directionAnswer2: The Condition for Conservation of Energy, the Condition for Equilibrium.
Newton's third law is only because of the Law of conservation of momentum. But the beauty is that only from third law we get the proof for the law of conservation of momentum. In free space as burnt materials come out of the container of the rocket, then the body moves forward. There is no solid region to push against (action) and there by get a reaction.
Equal in magnitude and opposite in direction.
The law that says every action has an equal and oppsite reaction: the momentum of the bullet is balanced by the equal momentum of the gun (and shooter) in the opposite direction - the recoil.
To every action there is a opposite reaction means reaction.
"for every action there is an equal and opposite reaction" is one of Newton's Laws of Motion.
third law of newton's law says''to every action there is an equal and opposite reaction''
Newton's third law, for every action there is an equal and opposite Reaction.This means in that the vector forces sum to zero, mathematically this means:Action + Re-Action = 0.
Newton's third law is..."For every action there is an equal and opposite reaction."This is probably the hardest law to really understand.It really helps to understand this law if you understand that the law has its origin in the conservation of momentum principle.The fact of the matter is, force can be most fundamentally understood to be the rate of change of momentum.Let me explain why.First momentum is..P=mvNow look at the equation for force.F=maIt is very similar except that in place of P we have F and in place of v we have a.Looking at the force equation again..f=mawe note that acceleration is the rate of change of velocity so...F=m dv/dtNow since the mass, m, is constant we can put it directly beside the velocity like so..F=d(mv)/dtThis is looking more like the below momentum equation...P=mvThe only difference is that for the momentum equation, we have, mv, and for the force equation we have the rate of change of, mv, or, d(mv)/dtNow in the force equationF=d(mv)/dtbecause P = mv, we can replace, mv with P...F=dP/dtAs I said, force is the rate of change of momentum.Now since the law of conservation of momentum states that momentum is neither created nor destroyed, if an object picks up momentum, another object to lose momentum. In Newton's third law the "action" force is the second body picking upmomentum and the "reaction" force is the first body losing that momentum.As an example, imagine two people standing on a very slippery skating rink, because they are standing still, together, they have zero momentum. If one person pushes the second person, or "applies a force" on the second person, the second person has momentum delivered to them and that second person picks up speed/momentum in that direction. The first person however picks up speed/momentum in the other direction, which means that he also had momentum delivered to him. That second person picking up momentum was the "action force", and that first person picking up momentum in the other direction was the "reaction force".The second person picked up momentum in one direction, and since there is the conservation of momentum law, the first picked up momentum in the opposite direction. Their momentum was zero before the event and since momentum has direction the sum of both momenta add up to zero after the event.If both people had been moving, for example, to the right and the first person pushed the second person also to the right, the second person would have picked up momentum to the right and the first person would have only lost momentum to the right. There would have still been both an action and a reaction force however because momentum was only exchanged.
A reaction.
Newton's 3rd law requires two forces to be equal and opposite thus summing to zero. The forces can be represented by the change in momentum thus requiring the momentum be conserved, dP/dt = 0. 0 = Fa + Fr =dPa/dt + dPr/dt =d(Pa + Pr)/dt =0. -- Newton's Laws are the manifestation of the Conservation of Energy. The 3rd Law is the vector part of the Conservation of Energy. Conservation of Energy requires that the sum of the Forces sums to zero. If the forces sum to zero, and Force is the time derivative of Momentum, then the Momentum must be constant. Constant Momentum is the Conservation of Momentum. Conservation of Momentum is a derivative of the Conservation of Energy and not an independent Law of Conservation as proposed by many including Emmy Noether. The Conservation of Momentum is the vector part of the Quaternion Conservation of Energy. The Scalar part is said to be the Conservation of Energy. This confusion results from not recognizing that Physics is the science of Quaternion Quantities.