Prove Newton's third law using Newton's second law..
Answers
Answer:
Newton's second law of motion is F=ma
That is we have:-
F=m(v−
t
u
) thus, Ft=mv−mu.
Now,When F=0, then v=u. That is the absence of force,The object continue to move with same velocity
throughout.
Now,when F=0 and u=0, then v=0. That is , an object at rest if no force is acting on it.
Thus,
Newton's first law is derived from the second law.
Now let us consider a system of 2 bodies 1&2 and considers that there is no external force acting.
Now let F
12
be the force acting on 2 by 1 and F
21
be the force acting on 1 by 2.
The rate of change of momentum of 1=
dt
dp
1
and rate of change of momentum of 2=
dt
dp
2
Thus, according to Newton second law of motion F
12
=
dt
dp
2
and F
21
=
dt
dp
1
Adding both the above equation, we get:-
F
12
+F
21
=
dt
dp
2
+
dt
dp
1
=d(p
2
+p
1
)/dt
We know that, no force is applied.
Thus momentum change will also be 0 change in velocity occurs.
Thus
dt
d(p
1
+p
2
)
=0
Therefore, F
12
+F
21
=0
That is F
12
=−F
21
Thus, Newton's third law is proved with Newton's second law.
Hence,
option C is correct answer
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Explanation:
Rockets can propel themselves through the nothingness of space because of two fundamental laws of physics: Newton’s Third Law and the Conservation of Linear Momentum. Both ideas are essential to understanding how nearly everything in the universe moves. When an ice skater takes off from a dead stop, she digs her blade into the ice and the ice pushes back with an equal and opposite force, sending her gliding across the rink. When a cannon is fired, the cannonball goes hurtling through the air while the cannon recoils backward in response. Both of these principles stem from the same general idea: that the universe likes to keep everything in balance.