This we recognize as essentially Galileo's concept of inertia, and this is often termed simply the "Law of Inertia".
Newton's Second Law of Motion:II. The relationship between an object's mass m, its acceleration a, and the applied force F is F = ma. Acceleration and force are vectors (as indicated by their symbols being displayed in slant bold font); in this law the direction of the force vector is the same as the direction of the acceleration vector.This is the most powerful of Newton's three Laws, because it allows quantitative calculations of dynamics: how do velocities change when forces are applied. Notice the fundamental difference between Newton's 2nd Law and the dynamics of Aristotle: according to Newton, a force causes only a change in velocity (an acceleration); it does not maintain the velocity as Aristotle held.
This is sometimes summarized by saying that under Newton, F = ma, but under Aristotle F = mv, where v is the velocity. Thus, according to Aristotle there is only a velocity if there is a force, but according to Newton an object with a certain velocity maintains that velocity unless a force acts on it to cause an acceleration (that is, a change in the velocity). As we have noted earlier in conjunction with the discussion of Galileo, Aristotle's view seems to be more in accord with common sense, but that is because of a failure to appreciate the role played by frictional forces. Once account is taken of all forces acting in a given situation it is the dynamics of Galileo and Newton, not of Aristotle, that are found to be in accord with the observations.
Newton's Third Law of Motion:III. For every action there is an equal and opposite reaction.This law is exemplified by what happens if we step off a boat onto the bank of a lake: as we move in the direction of the shore, the boat tends to move in the opposite direction (leaving us facedown in the water, if we aren't careful!).
he discover that it was good that the sunlight had sexxx
"What are length constant and wedge constant in newton's laws of motion?"
white light can be split into the colours of the rainbow
He did better than that.He invented it.
no he created the laws of force
the laws of gravity
In Cambridge University
Isaac Newton discovered three basic laws of motion, known as Newton's Laws of Motion. These laws describe the relationship between the motion of an object and the forces acting on it.
Newton discovered many of the laws and theories that not only furthered our understanding of the universe, but also gave future scientists the tools to discover how to enter space. He discovered gravitational force and established the three Universal Laws of Motion.
Isaac Newton was both an inventor and a discover. Newton invented the first practical reflecting telescope and the laws of motion and universal gravitation. With the help of others, he discovered the true shape of the earth.
Sir Isaac Newton is credited with discovering the three laws of motion, also known as Newton's Laws of Motion. These laws describe the relationship between the motion of an object and the forces acting on it. Newton's Laws of Motion laid the foundation for classical mechanics and are fundamental principles in the field of physics.
It was Sir Isaac Newton (1642-1727), English mathematician and physicist, who set down the laws of motion.
His name is Issac Newton and he discovered the laws of gravity inertia and motion
Well, no one really invented it but if you mean discover the laws governing it then yes.
Sir Isaac Newton's largest contributions were in the areas of science and mathematics. Newton discovered many of the laws and theories that not only furthered our understanding of the universe, but also gave future scientists the tools to discover how to enter space. He discovered gravitational force and established the three Universal Laws of Motion. By tying these discoveries to the work Johannes Kepler and his Laws of Planetary motion, he established classic mechanics the beginning of modern Physics.
Isaac Newton discoverd the three laws of gravity. One day at school an apple fell on his head and wonderd all day how it happened.
Newton