A force in the opposite direction, and with the same magnitude.
its possible in any possible ways depending on the force put on it .
Remember Newton's third law of motion! The object exerts a force that is of equal (the same) magnitude but in the opposite direction to what you applied to it
Simple answer: yes In order for you to stand, talk, move... ect objects must exert a force on you. For example if you are standing on the ground, the ground has to be pushing back at you, or you would just fall through. If an object doesn't exert the same force you exert on it, then you are moving the object.
It means that if one object exerts a force on another object, the other objects exerts a force back on the first object.
the concept's application here is very simple. As we walk we exert a certain amount of force on the Earth and governed by the 3rd law the Earth exerts the equal amount of force back on our foot (opposite direction) but as the Earth is very massive to observe the push that we exert only the force the it exerts it felt this added to friction provides the stability of the feet while in movement
its possible in any possible ways depending on the force put on it .
Remember Newton's third law of motion! The object exerts a force that is of equal (the same) magnitude but in the opposite direction to what you applied to it
Simple answer: yes In order for you to stand, talk, move... ect objects must exert a force on you. For example if you are standing on the ground, the ground has to be pushing back at you, or you would just fall through. If an object doesn't exert the same force you exert on it, then you are moving the object.
When object A exerts a force on object B, object B exerts the same force on object A, but in the opposite direction. That means, if you hit a wall with a force of, let's say 50 N, the wall will hit you back with the same force. If you stand on the floor and exert a force of 1000 N, the floor exerts the same force on you, so there is no resultant force, and that is why you stand on it.
That law basically states that if an object "A" exerts a force on another object "B", then the object "B" will also exert a force back on object "A". Each force is the negative of the other, i.e., they have the same magnitude but act in opposite directions.
It means that if one object exerts a force on another object, the other objects exerts a force back on the first object.
Yes. This is Newton's Third Law,
newtons 3rd law states that if object A exerts a force on object B then, object Bwill exert the same amount of force on object A( newtons 3rd law of motion states that for every action there is an equal or opposite reaction )
To say that for every action there is an equal and opposite reaction is slightly misleading you, as these forces are NOT on the same object. Better to say 'if A exerts a force on B, then B exerts an equal and opposite force on A'. When I stand on my bathroom scales, I exert a downward force on the scales, which deflect until they exert an equal and opposite force on me, thus preventing me from falling. Acceleration occurs to ME when forces on ME are unbalanced. e.g. if I stood on a rocket the upward force of the rocket on me is greater than the downward force of gravity, so I would accelerate upwards. These are NOT action-reaction forces. What are action-reaction forces are the force I exert on the rocket and the force the rocket exerts on me.
the concept's application here is very simple. As we walk we exert a certain amount of force on the Earth and governed by the 3rd law the Earth exerts the equal amount of force back on our foot (opposite direction) but as the Earth is very massive to observe the push that we exert only the force the it exerts it felt this added to friction provides the stability of the feet while in movement
Its called Newton's Third Law. "When object A exerts a force on object B , then object B will exert an equal but opposite force back on A". When a rocket spews out hot gasses it's effectively exerting a force on the gasses. So the gasses exert the same force back on the rocket. The gasses accelerate one way and the rocket accelerates the other way. When Goddard first started experimenting with rockets some newspapers laughed at him because they thought the rocket would not be able to keep going once it got too far from the earth. But Goddard undestood Neton's Third law and knew the earth didn't have to be there for it to work.
The idea of a reaction force comes from Newton's third law; "If object A exerts a force on object B ,then object B will exert an equal but opposite force back on A". In many problems some of the forces are considered as the "initiating" force or the applied force. When you consider a force as being applied, like a bulldoser pushing a rock, then the force which must act back , the rock pushing back on the doser, is called the reaction force. Sometimes you don't really have an initiating force but it still convienient to think of one force as the force of interest and the back force as the reaction force. There is no single formula for reaction force since it can apply to any force. For example, the earth attracts you with a force mg (your weight), then you can think of the reaction force as you attract the earth with a force -mg; equal but opposite.