{"id":1316,"date":"2017-02-23T14:45:25","date_gmt":"2017-02-23T14:45:25","guid":{"rendered":"http:\/\/www.experimentoscientificos.es\/?p=1316"},"modified":"2018-11-20T16:45:38","modified_gmt":"2018-11-20T16:45:38","slug":"primera-ley-newton","status":"publish","type":"page","link":"https:\/\/www.experimentoscientificos.es\/en\/leyes-newton\/primera-ley-newton\/","title":{"rendered":"Newton's First Law"},"content":{"rendered":"

The Newton's first law, <\/strong>also known as the law of inertia, is the first of the 3 laws of inertia. Newton's laws<\/a> or laws of classical mechanics. It is a law that we could consider practically intuitive, but it is fundamental to be able to pose all the problems of mechanics and forces today.<\/p>\n

STATEMENT OF NEWTON'S FIRST LAW<\/h2>\n

\"Any body will remain in its state of rest or uniform rectilinear motion if there is no force to pull it out of it\".<\/strong><\/p>\n

EXPLANATION OF THE 1ST LAW OF NEWTON'S FIRST LAW<\/h2>\n

In the case of bodies at rest<\/strong>the Newton's first law<\/strong> says that it will remain stationary if there is no force to remove it from that state. The fact that an object is at rest, does not mean that there is no force acting on it, it means that the forces acting on it are not acting on it. forces at work are in equilibrium<\/strong>.<\/p>\n

A practical example of this case would be that you yourself stand in balance (balancing your weight with the force exerted on you by the ground), if there is nothing pushing you (external force).<\/p>\n

\"Primera<\/p>\n

Newton's first law, which also involves the bodies in rectilinear motion. <\/strong>These are the bodies that move without acceleration, with a constant velocity motion.<\/p>\n

EXAMPLES OF NEWTON'S FIRST LAW<\/h2>\n

Examples of applications of Newton's first law are practically<\/p>\n