explain newton s laws of motion with the help of one songle example in daily life
Answers
WHEN A TRAIN SUDDENLY STARTS MOVING FORWARD THE PASSENGER STANDING IN THE COMPARTMENT TENDS TO FALL BACKWARDS
SECOND LAW
WHILE CATCHING THE BALL THE CRICKETER WITHDRAWD HANDS BECAUSE IT INCREASES TIME PERIOD AND FORCE BECAME LESS.
THIRD LAW
MOTION OF MAN ON GROUND . MAN PUSSES GROUND BACKWARD AND WE GO FORWARD
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Newton’s 1st law: Every object remains at rest or in motion traveling in a straight line unless an unbalanced force causes some change in that object’s state.
If we just look around, we see many objects “at rest,” i.e., not moving. We know from a lifetime of empirical observation that those objects won’t move until some force—a push or a pull—causes that motion.
Newton’s 2nd law: A change in motion will be in the direction of the force applied and in proportion to the force applied.
This seems like commonsense to us: If I push an object, it travels in the direction I push it. If I push harder on an object, the change in direction or speed is more significant than if I had pushed softly on that object. Mathematically, Newton showed that the force applied to an object is directly proportional to its mass times its acceleration. If we rearrange the famous F=ma, we see that acceleration (that is, a change in either speed or direction or both) is directly proportional to the force applied and inversely proportional to the mass.
Newton’s 3rd law: For every action there is an opposite and equal reaction.
Although this is often illustrated with the idea of a rocket in space spewing out exhaust (an action) and moving forward (the reaction), we also experience it every day on Earth. As suggested earlier, a mug sitting on a desk experiences two opposite and equal forces: The mug pushes down with the force of its weight (its mass times the acceleration caused by gravity), while the table pushes up with what is called the “normal” force. The forces are equal in magnitude and in opposite directions (the mug’s force is directed downward, and the desk’s force is directed upwards).