2006-10-03 03:47:04 · 14 answers · asked by rohit_gupta322 2 in Science & Mathematics ➔ Physics
because the equal and opposite force pushing against your push is felt against your hands; the force you are overcoming when you move the body is usually gravity and friction, which are not the opposite of the force you are exerting; you don't slide backwards because your friction (because of mass) is greater than the equal and opposite force pushing against you when you push the body.
2006-10-03 03:50:47 · answer #1 · answered by Anonymous · 2⤊ 0⤋
Newtons third law says "For every action there is an equal and opposite reaction" You will have a reaction if you will apply some action(force). You are able to push bodies because the force u applied is not in the same direction the reaction is. When an object is on ground there is a reaction from the ground to the object. The reaction N is equal to the force mg of the object. These forces keep the body in eqilibriam. When someone push the object from front or back it starts moving in the direction the force is applied. Newtons first law applied here.
All the principle of physics are related with each other. This is all i can say about your answer
2006-10-03 04:21:50 · answer #2 · answered by piti 2 · 0⤊ 0⤋
Smart Question.
But you have to Understand that when you are trying to Push at that time you are only overcoming the Frictional Force provided by the System to the given Body.
Newtons Third Law gets applied between your hands & the Body.And since Your Inertial Force is much more greater than the Frictional Force the Body gets Pushed.
2006-10-03 05:27:41 · answer #3 · answered by Ice Cool 1 · 0⤊ 0⤋
Since u know Newton's third law well, i won't give it for u but the answer is that even the objects the same force by resisting the change in equilibrium(its position) and hence opposite force is applied.
2006-10-03 03:55:49 · answer #4 · answered by Anonymous · 0⤊ 0⤋
A good Q and i was waiting for someone to ask this Q. In simple words, the movement is the net reaction of different actions. Just put it the other way round. If you see something is moving then you would like to know what made it move?.
Equal and opposite reaction does not mean one to one cancellation. The action gets split in to different reactions and the movement is due to one of the reactive components.
The problem is the standard science books authors do not want to use an informal language in explaining the concepts. Also, a published book is not a substitute for a great teacher.
2006-10-03 05:29:10 · answer #5 · answered by Anonymous · 0⤊ 0⤋
there are a variety of of procedures in which you could bypass and attempt the third regulation. the first challenge you should settle for is that Newtons regulation pertains to Forces. in case you exert a rigidity on a body it exerts a similar rigidity again on you. you're pushing it in a unmarried direction that's "pushing" you in the option direction. that's a rigidity which in elementary words strikes and merchandise in preserving with that gadgets mass. a elementary merchandise might want to boost up swifter given a similar rigidity than a heavy merchandise. then you definately ought to think with regard to the forces operating antagonistic to you. The friction rigidity. that's that this rigidity you mostly ought to conquer to make an merchandise flow. Pushing a weight alongside ice is way less complicated than pushing it alongside well-known floor. that's because you've a lot less rigidity performing antagonistic to you. that's that this friction that permits you to push an merchandise even no matter if that's extra large than you. Your shoes can grant adequate friction to conquer the rigidity performing on you even with the indisputable fact that the object you're pushing might want to have a lot less friction and woud flow in the direction you pushed. in case you bypass ice skating. Stand off the ice and push your pal gently, they are going to flow faraway from you and also you may stay nevertheless. Your friction is in simple terms too intense that you'll be able to flow, yet you'll sense the rigidity on your fingers and fingers. Now get on the ice and push them. you'll both flow in opposite instructions. that's because your frictional forces are extra equivalent and also you would possibly want to now conflict to push this merchandise (pal)
2016-12-04 04:11:18 · answer #6 · answered by silender 4 · 0⤊ 0⤋
Action and reaction, referred to in Newton's 3rd law, act on different bodies. So, they do not cancel each other. Our push is then an unbalanced force. It produces acceleration and hence the motion from push.
2006-10-03 05:14:44 · answer #7 · answered by Entho 2 · 1⤊ 0⤋
look newtons third law states that every action has an equal and opposite reaction i.e. if u apply a force,say xN, then the other body exerts a force of xN.when its on ground then it exerts a force on the ground say yN and the ground too exerts a force of yN on it.Then the total force acting on the body is (x+y)N.this is greater than the force exerted by u i.e. xN.so the the body experiences a greater force and it moves.
(N stands for NEWTON.)
2006-10-03 04:25:39 · answer #8 · answered by bhagyashree_pani 1 · 0⤊ 0⤋
Friction on the ground prevents from you moving in the opposite direction. When you are ice skating if you try to push some one you will move backwards. In space the astronauts use special tools to tighten the bolts because when they turn the bolt right they in turn will turn left. To prevent this reaction they use special tools. Recoiling of pistols is another examples of the law
2006-10-03 04:30:59 · answer #9 · answered by Dr M 5 · 1⤊ 0⤋
I will break down the sentence to make sense.
Why are we able to push bodies?
We are able to push bodies by applying more force to over come the existing forces on the bodies.
This is true when we stop the body from moving.
2006-10-03 04:14:11 · answer #10 · answered by minootoo 7 · 0⤊ 0⤋