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Newton's second law was used to analyze a variety of physical situations. The idea was that if any given physical situation is analyzed in terms of the individual forces which are acting upon an object, then those individual forces must add up as vectors to the net force. Furthermore, the net force must be equal to the mass times the acceleration. Subsequently, the acceleration of an object can be found if the mass of the object and the magnitudes and directions of each individual force are known. And the magnitude of any individual force can be determined if the mass of the object, the acceleration of the object, and the magnitude of the other individual forces are known. The process of analyzing such physical situations in order to determine unknown information is dependent upon the ability to represent the physical situation by means of a free-body diagram. A free-body diagram is a vector diagram which depicts the relative magnitude and direction of all the individual forces which are acting upon the object. Newton's second law was used to analyze a variety of physical situations. The idea was that if any given physical situation is analyzed in terms of the individual forces which are acting upon an object, then those individual forces must add up as vectors to the net force. Furthermore, the net force must be equal to the mass times the acceleration. Subsequently, the acceleration of an object can be found if the mass of the object and the magnitudes and directions of each individual force are known. And the magnitude of any individual force can be determined if the mass of the object, the acceleration of the object, and the magnitude of the other individual forces are known. The process of analyzing such physical situations in order to determine unknown information is dependent upon the ability to represent the physical situation by means of a free-body diagram. A free-body diagram is a vector diagram which depicts the relative magnitude and direction of all the individual forces which are acting upon the object.
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What is the appliatiom for newton law?
The application for Newton's law is motion. There are several laws of motion that were defined by Isaac Newton.
Which of newton's laws is called the law of inertia?
second law
Which one of newton's laws explains the relatinships affecting force mass and acceleration?
Newton's second law
Which of newton's laws of motion is called the law of interia?
newton's second law states that force is equal
How do you derive newton's third law of motion from second law of motion?
You cannot. Newton's third law is independent of the first and second laws.
Can you give an application of Newton's second law of motion?
all moving objects
What are the specific contribution of Isaac newton?
He made three laws of nature: first, second and third law of newton
What are theApplications of Newton laws in daily life?
1- the first law of newton's:- bicycling contains the first law of newton's 2- the second law of newton's:- pushing a car contains the second law of newton's 3- the third law of newton's:- the launching of a rocket contains the third law of newton's guess this is correct...:) :D
What laws of motion explained Kepler's proposal of elliptical orbits?
The general laws about the planets' orbits were known before Newton - mainly, through the three Laws of Planetary Motion, by Kepler. Newton showed that the movement - as explained in Kepler's Laws - was a result of the laws of motion (especially Newton's Second Law), and of the force of gravitation.
How are newton's first and second laws of motion alike?
they are alike because they both deal with force
The force that a second object returns to the first object is called the?
see Newton's Laws of Motion
Which is not one of Newton's laws?
A) What goes up must come down. The three laws Sir Isaac Newton's three laws of motion describe the motion of massive bodies and how they interact. While Newton's laws may seem obvious to us today, more than three centuries ago they were considered revolutionary. What Are Newton's Three Laws of Motion? Newton's First Law of Motion (Law of Inertia) Newton's Second Law of Motion (Law of Mass and Acceleration) Newton's Third Law of Motion
