Explain Newton's second law. Derive relationship between force apply and acceleration produce in body .
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According to the Newton’s 2nd Law of motion, the rate of change of linear momentum of a body is directly proportional to the applied external force and in the direction of force.
It means that the linear momentum will change faster when a bigger force is applied.
Consider a body of mass ‘m’ moving with velocity v.
The linear momentum of a body is given by:
p = mv
Now According to Newton’s 2nd Law of Motion:
Force is directly proportional to rate of change of momnetum, that is
F α dp/dt
F = k dp/dt
F = k d(mv)/dt
F = k md(v)/dt
F = k ma
Experimentally k =1
F = k ma
Which is the required equation of force
Answered by
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Hey mate..✌
Here is your answer :-
NEWTON'S SECOND LAW :-
=======================
According to it force is directly proportional to the rate of change of linear momentum.
F α dp/dt
F = k dp/dt
Now,
p (momentum) = mv
So,
F = k d(mv)/dt
F = k md(v)/dt
F = k ma
(As, dv/dt = a)
Experimentally k =1
So,
F = ma
=================================
Here is your answer :-
NEWTON'S SECOND LAW :-
=======================
According to it force is directly proportional to the rate of change of linear momentum.
F α dp/dt
F = k dp/dt
Now,
p (momentum) = mv
So,
F = k d(mv)/dt
F = k md(v)/dt
F = k ma
(As, dv/dt = a)
Experimentally k =1
So,
F = ma
=================================
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