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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
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.
Well, according to Newton's third law, every action has an equal and opposite reaction, so the ground would exert 3000 Newtons back on the moose.
The answer is reaction. A simple example is you standing on the ground. You are not moving or accelerating (in our reference frame). You are pushing down against the ground with a force (the action) equal to your weight. The ground pushes back up (opposite direction) with an equal force (the reaction force).
According to Newtons 3rd law, "Every action has an equal and opposite reaction". if you exert force on an object, the object will exert an equal and opposite force on you. when the forces exerted by you and the object balance a state of equilibrium is attained. however if you exert a force greater than the weight of the body, the body begins to move and work is done.
Your feet exert a force on the ground so in return the ground exerts a force on your feet.
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
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.
The action and reaction forces do cancel each other out, so that there is a net force of zero. When you push on a wall, the wall does not move because the action force that you exert and the reaction force that the wall exerts are equal but opposite and the net force is zero.
Well, according to Newton's third law, every action has an equal and opposite reaction, so the ground would exert 3000 Newtons back on the moose.
Yes; a running athlete can exert up to 4 times their body weight in force upon the ground.
The answer is reaction. A simple example is you standing on the ground. You are not moving or accelerating (in our reference frame). You are pushing down against the ground with a force (the action) equal to your weight. The ground pushes back up (opposite direction) with an equal force (the reaction force).
According to Newtons 3rd law, "Every action has an equal and opposite reaction". if you exert force on an object, the object will exert an equal and opposite force on you. when the forces exerted by you and the object balance a state of equilibrium is attained. however if you exert a force greater than the weight of the body, the body begins to move and work is done.
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.
Newton's Third Law of motion states that every action has an equal and opposite reaction. This essentially states that if you exert a force on something, that object will exert the same force on you in the opposite direction. An example of this is you sitting at your computer now. Your weight is a force pushing down on your chair, and the chair is pushing up on you with the same force as your weight. This keeps you in one place.
This force is defined by Newtons third law: action and reaction.''To every action there is always an equal and opposite reaction: or the forces of two bodies on each other are always equal and are directed in opposite directions''This force doesn't have a name since it is depending on the object and the type of forces you are looking at. Fx. when you're driving the road exert a frictional force on you. But the earth exert a gravitational force on you and you a gravitational force on the earth.
It is not the action but the reaction force that makes a rocket lift up. The action force is the force released when the rocket fuel burns. This action force acts on the surface/ground and according to Newton's Third Law [For each and every action, there is an equal and opposite reaction], a reaction force acts towards the rocket hence giving it a lift.