Wait a second!
More handpicked essays just for you.
More handpicked essays just for you.
Isaac Newton and his contributions to science
Scientific achievements of sir isaac newton
Scientific achievements of sir isaac newton
Don’t take our word for it - see why 10 million students trust us with their essay needs.
Recommended: Isaac Newton and his contributions to science
Sir Isaac Newton was one of the greatest physicist and mathematicians of all time. He was born in England on December 25, 1642 on Christmas. He died at the age of eighty four on March 20, 1727. Newton was never married and never had any children. Though he did have three siblings from his mother’s second marriage. Some of Newton’s achievements in physics and mathematics are; Newton’s law of universal gravitation, Newton’s three laws of motion, calculus, refraction of light, reflecting telescope, Newton’s law of cooling, coins, and the binomial theorem. I will be talking about all of these in this paper over Sir Isaac Newton along with different parts of his personal life along the way.
Starting off from the list of substantial accomplishments by Isaac Newton I picked Newton’s three laws of motion. If you have ever had a science class prior reading this, then these laws should sound vaguely familiar to you. The first law of motion states
In plain man’s terms it basically means if you place a ball on the counter then it will not move. But if you move it or apply any amount of force on it then the ball will move. Newton second laws of motion states
This second law of motion is so indescribably helpful in making leaps in physics and it is one of the main formulas used in physics. And finally Newton third law of motion states that,
This law is one of the most popular and well known laws of the three. For an easy example you could be stepping off a skateboard toward the ground, we end up pushing the skateboard backward, an easy everyday activity. This is one of Newton’s greatest accomplishments; these three laws. They have extremely helped us in physics, science, and mathematics. Without these laws we wouldn’t be where we are today....
... middle of paper ...
... is vastly different and more complex. Because of this we now have multiple ways to discover and use binomials. This is yet again another one of Sir Isaac Newton’s great mathematical contributions.
So, in conclusion these are all of the mathematical and scientific discoveries and accomplishments of Sir Isaac Newton. He influenced the world as we know today in so many ways. A great man on so many levels. It is simply unimaginable to me how a single man was able to coo all of this in just eighty four years. But amazingly enough he did. And I believe that the whole should be eternally grateful, because without him, we do not know where we would be or how far we would be behind in this world. So, thank you so much Sir Isaac Newton for opening our eyes about the world around us and letting us know what we are capable of. This is the life and story of Sir Isaac Newton.
When in space, Newtons first law is very obvious. When an object in space is set on a course, it stays on that course unless it is acted upon by some outside force. Newtons first law is also present in every day life here on earth. The place where we may experience it the most is in our vehicles. If you are driving your car down the road and you come to a sudden stop, then you are going to go through the widshield unless you are wearing a seatbelt! The reason that you keep moving is because some outside force has stopped your car, but it has not stopped you. This may be a good reason to wear your seatbelt. This concept is also know as inertia.
Sir Isaac Newton made an enormous amount of contributions to the world of physics. He invented the reflecting telescope, proposed new theories of light and color, discovered calculus, developed the three laws of motion, and devised the law of universal gravitation. His greatest contribution to physics was the development of the three laws of motion. The first law was called the law of inertia; this law stated that, “Every object persists in its state of rest or uniform motion in a straight line unless it is compelled to change that state by forces impressed upon it.” The second law is called the law of acceleration; this law stated that, “Force is equal to the chan...
In 1687, Newton published Philosophiae Naturalis Principia Mathematica (also known as Principia). The Principia was the “climax of Newton's professional life” (“Sir Isaac Newton”, 370). This book contains not only information on gravity, but Newton’s Three Laws of Motion. The First Law states that an object in constant motion will remain in motion unless an outside force is applied. The Second Law states that an object accelerates when a force is applied to a mass and greater force is needed to accelerate an object with a larger mass. The Third Law states that for every action there is an opposite and equal reaction. These laws were fundamental in explaining the elliptical orbits of planets, moons, and comets. They were also used to calculate
Isaac Newton faced many hardships in his lifetime, yet managed to be internationally famous for his genius mathematical and physical discoveries, and remarkable inventions. Newton was extraordinary in the sense that he was able to endure complications in life and still be an enormous success. The majority of individuals would have cracked under the predicaments Newton faced. Newton overcame neglect by suppressing his emotions, defeating limitations of his time, and becoming one of the most noteworthy mathematicians and physicists in history.
The three laws of motion are three rules that explain the motion of an object. The first law is the law of inertia. It states that every object remains at rest unless it is compelled by an external force. The second law is the law of acceleration. This law shows when there is a change in force, it causes a change in velocity. Finally, the third law states that every force in nature has an equal and opposite reaction. His discovery in calculus help confirms his second law of motion. Calculus also gave Isaac Newton powerful ways to solve mathematical problems. Lastly, for the color spectrum, he produced a beam of light from a tiny hole in a window shade. He placed a glass prism in front of the beam of light creating a color spectrum. In Newton’s undergraduate days, Newton was greatly influenced by the Hermetic tradition. After learning about the Hermetic tradition it influenced him to look at a different perspective into his discoveries and theories. One of the myths that followed the discovery is his discovery of universal gravitation. It is said that while Isaac Newton was thinking about the forces of nature, an apple fell on his head and he found the theory of gravity. There is no evidence that an apple fell on Newton’s head, but the evidence is shown that Newton got an idea of the theory of gravity when he saw an apple fall from a tree. During his life; however, Isaac Newton faced many obstacles. When he published some of his ideas in Philosophical Transaction of the Royal Society, some people challenged his ideas such as Robert Hooke and Christiaan Huygens to a point where Newton stopped publishing his work. During his life, he also suffered a nervous breakdown in a period of his life. He was convinced his friends were conspiring against him, and he couldn’t sleep at all for five
Berlinski, David. Newton's Gift: How Sir Isaac Newton Unlocked the System of the World. New
Issac Newton was a great contributor to the mathematics and physics we use today and he is a well respected man.
History has brought many influential scientists. Sir Isaac Newton is perhaps the most influential scientist of all time. Without his works and discoveries, mankind might have been set back many decades or even scores in scientific and technological advancement. Therefore, because of his tremendous impact on mankind, it is important to study Sir Isaac Newton's life and acheivements.
Isaac Newton was born in Lincolnshire, on December 25, 1642. He was educated at Trinity College in Cambridge, and resided there from 1661 to 1696 during which time he produced the majority of his work in mathematics. During this time New ton developed several theories, such as his fundamental principles of gravitation, his theory on optics otherwise known as the Lectiones Opticae, and his work with the Binomial Theorem. This is only a few theories that that Isaac Newton contributed to the world of mathematics. Newton contributed to all aspects of mathematics including geometry, algebra, and physics.
When most people hear the name Isaac Newton, they think of various laws of physics and the story of the apple falling from the tree; in addition, some may even think of him as the inventor of calculus. However, there was much more to Newton’s life which was in part molded by the happenings around the world. The seventeenth century was a time of great upheaval and change around the world. The tumultuousness of this era was due mostly to political and religious unrest which in effect had a great impact on the mathematics and science discoveries from the time Newton was born in 1646 until the early 1700’s.
This law is also often called “Inertia”. Inis the tendency for an object to resist the change in motion. Like, if you are moving and nothing happens to you, then you will keep moving. Forever. If nothing is happening to, and nothing is trying to put any type of force on you then nothing will happen .Forever. (Newton’s Three) There is a limit that must be met in order for the first law to be suitable to any given motion. The limit is represented by the phrase "... unless acted upon by an unbalanced force." As the long as the forces are balanced - the first law of motion
An English mathematician and physicist by the name of Sir Issac Newton would later develop Galilieo’s idea of inertia into one of his three scientific laws. Aware of other factors that played a roll in the theory of inertia, Newton proposed two other laws that supported it. They are included in his famous three laws of motion. The first law of motion states "a body in motion shall remain in motion moving with a constant speed and direction, unless acted on by an outside force".
Sir Isaac Newton Jan 4 1643 - March 31 1727 On Christmas day by the georgian calender in the manor house of Woolsthorpe, England, Issaac Newton was born prematurely. His father had died 3 months before. Newton had a difficult childhood. His mother, Hannah Ayscough Newton remarried when he was just three, and he was sent to live with his grandparents. After his stepfather’s death, the second father who died, when Isaac was 11, Newtons mother brought him back home to Woolsthorpe in Lincolnshire where he was educated at Kings School, Grantham. Newton came from a family of farmers and he was expected to continue the farming tradition , well that’s what his mother thought anyway, until an uncle recognized how smart he was. Newton's mother removed him from grammar school in Grantham where he had shown little promise in academics. Newtons report cards describe him as 'idle' and 'inattentive'. So his uncle decided that he should be prepared for the university, and he entered his uncle's old College, Trinity College, Cambridge, in June 1661. Newton had to earn his keep waiting on wealthy students because he was poor. Newton's aim at Cambridge was a law degree. At Cambridge, Isaac Barrow who held the Lucasian chair of Mathematics took Isaac under his wing and encouraged him. Newton got his undergraduate degree without accomplishing much and would have gone on to get his masters but the Great Plague broke out in London and the students were sent home. This was a truely productive time for Newton.
In the natural world, physicists find new discoveries constantly. Some of these discoveries include the study of motion and forces. The well-known scientist, Isaac Newton, came up with the three laws of motion, which state rules and facts about the movement of an object. Our textbook states the laws of motion, as ?A body in motion will remain in motion at a constant speed and direction unless an outside force acts upon it. The net force acting upon an object is directly related to the mass and acceleration of the object resulting acceleration is in the direction of the net force, which is the vector sum of all forces acting upon the object. Finally, the third law of motion states that when one object applies a force to another, the other object applies the same amount of force back to the first object, but in opposite directions.? With these laws of motion, we can understand in detail how our world works. Also, that the movement of an object is more complex than a simple push. This discovery is taught to students all over the world because of its great importance and will continue to enhance the knowledge of the mystery of our earth.
The second law is, “the relationship between an objects mass (m), its acceleration (a), and the applied force (f) is F= ma.” The heavier object requires more force to move an object, the same distance as light object. The equation gives us an exact relationship between Force, mass, and acceleration.