state Newton's second law of motion show that it gives the measure of force
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Newton's 2nd Law of motion
from every day experience we know that if we push a body harder ,it moves faster.
it's velocity change in the direction of the force exerted. from such experience it is established that when a force acts upon a certain body, the acceleration produced is proportional to force.
Symbolically it can be expressed as
F proportional to A
or
F = ma
where F is vector sum of all forces acting on body ,.
m is mass of body and equation can be regarded as statement of Newton's 2nd law of motion.
equation can be written as
a = F/m
Hope it will help you.
Mark as Brainliest answer.
from every day experience we know that if we push a body harder ,it moves faster.
it's velocity change in the direction of the force exerted. from such experience it is established that when a force acts upon a certain body, the acceleration produced is proportional to force.
Symbolically it can be expressed as
F proportional to A
or
F = ma
where F is vector sum of all forces acting on body ,.
m is mass of body and equation can be regarded as statement of Newton's 2nd law of motion.
equation can be written as
a = F/m
Hope it will help you.
Mark as Brainliest answer.
Answered by
1
Hello,
For a constant mass m,
Newton's second law looks like:
F = m * (V1 - V0) / (t1 - t0)
The change in velocity divided by the change in time is the definition of the acceleration a.
The second law then reduces to the more familiar product of a mass and an acceleration:
F = m * a.
thanks ☺️❤️
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