![]() ![]() That is how he thought up his three laws that describe the relationship between an object’s motion and the forces that make it move or stop. He would not take things around him for a given and started wondering and investigating what makes objects move. Isaac Newton, as any scientist is supposed to be, was a very curious man. We are talking about Newton’s laws of motion, which are at the basis of the mechanics. ![]() He turned upside-down the perception of everyday things and made his contemporaries see the world differently. What we take for granted now once was a mind-blowing discovery. He devoted his life to science, putting his mental capacities at the service of humanity. He can be considered one of the greatest scientific minds in the history of humankind. Isaac Newton is a 17th-century scientist. But he still came up with so many brilliant ideas! We are about to disappoint you as that did not really happen. That example is similar to the kick when a gun fires a bullet forward.What most people think about when they hear the name Newton is an apple that hit him while he was sitting under the tree thinking about physics. The force pushing the ball out was equal to the force pushing the cannon back, but the effect on the cannon is less noticeable because it has a much larger mass. When the cannonball is fired through the air (by the explosion), the cannon is pushed backward. There's also the example of shooting a cannonball. Acting forces encounter other forces in the opposite direction. Your body exerts a force downward and that chair needs to exert an equal force upward or the chair will collapse. The third law says that for every action (force) there is an equal and opposite reaction (force). ![]() The difference in effect (acceleration) is entirely due to the difference in their masses. ![]() The effect of a 10 newton force on a baseball would be much greater than that same force acting on a truck. The effect (acceleration) on the smaller mass will be greater (more noticeable). The second law shows that if you exert the same force on two objects of different mass, you will get different accelerations (changes in motion). The second law says that the acceleration of an object produced by a net (total) applied force is directly related to the magnitude of the force, the same direction as the force, and inversely related to the mass of the object (inverse is a value that is one over another number. You will learn all the real details - and math - when you start taking more advanced classes in physics.). If they threw something when doing a spacewalk, that object would continue moving in the same direction and with the same speed unless interfered with for example, if a planet's gravity pulled on it (Note: This is a really really simple way of descibing a big idea. The same is true when they throw objects for the camera. There is no interfering force to cause this situation to change. Have you ever noticed that their tools float? They can just place them in space and they stay in one place. You can see good examples of this idea when you see video footage of astronauts. If you're going in a specific direction, unless something happens to you, you will always go in that direction. If nothing is happening to you, and nothing does happen, you will never go anywhere. Motion (or lack of motion) cannot change without an unbalanced force acting. The first law says that an object at rest tends to stay at rest, and an object in motion tends to stay in motion, with the same direction and speed. The ideas have been tested and verified so many times over the years, that scientists now call them Newton's Three Laws of Motion. During his work, he came up with the three basic ideas that are applied to the physics of most motion (NOT modern physics). He worked on developing calculus and physics at the same time. A little bit stuffy, bad hair, but quite an intelligent guy. There was this fellow in England named Sir Isaac Newton. ![]()
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