State newton law of motion
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There are three newtons laws of motion
the first law states the if the resultant of the forces acting on the particle is zero then the particle remains unaccelerated (remains at rest or moves with constant velocity ) we can understand this in a converse way like if the acceleration of a particle is zero then the sum of all the forces acting on the particle is also zero.
The second law :the acceleration of a particle ( when measured from an inertial frame) is given by the sum of all the forces acting on the particle divided by mass
The third law : If body exerts a a force vector F on another body then the other body will exert the same force with same magnitude but in opposite direction i.e - F vector on the first body
this the true meaning of the laws of motion
Hope this helped you :-)
the first law states the if the resultant of the forces acting on the particle is zero then the particle remains unaccelerated (remains at rest or moves with constant velocity ) we can understand this in a converse way like if the acceleration of a particle is zero then the sum of all the forces acting on the particle is also zero.
The second law :the acceleration of a particle ( when measured from an inertial frame) is given by the sum of all the forces acting on the particle divided by mass
The third law : If body exerts a a force vector F on another body then the other body will exert the same force with same magnitude but in opposite direction i.e - F vector on the first body
this the true meaning of the laws of motion
Hope this helped you :-)
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Answer:
There are three types of laws of motion.
Explanation:
First law of motion - it states that a body will keep on moving along a straight line with uniform velocity or remain in a state of rest unless and external balanced force acts on it.
Second law of motin - states that the force acting on a body is directly proportional to the rate of change of its momentum.
Third law of motion - to every action there is an equal and opposite reaction and they act on two different objects.
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