Biography of Sir Isaac Newton – Inventor of the Law of Gravity
When Newton focused on the lesson, his love story became increasingly erratic and finally, Storer married someone else.
Many have stated that he, Newton, always remembers his love story even though it was never mentioned that Newton had a lover and was even married.
From the age of 12 to 17, Newton was educated at The Kings School located in Grantham (his signature is still in the school library). His family took Newton out of school on the grounds that he would become a farmer.
However, Newton seemed to dislike his new job. But in the end after convincing his family and mother with the help of his uncle and teacher. Newton was able to finish school at the age of 18 with satisfying grades.
When she grows up, her mother takes her out of school in the hope that her child can become a good farmer. Fortunately, the mother can be persuaded, that her main talent is not located there.
At the age of eighteen, he entered Cambridge University. Here, Newton quickly absorbed what was then famous with science and mathematics and quickly began his own investigation.
Between the ages of twenty-one and twenty-seven, Isaac Newton laid the foundations of the theory of science which in turn changed the world. The mid 17th century was a period of scientific seeding.
The discovery of star binoculars near the beginning of the century has overhauled all opinions about astrology. British philosopher Francis Bacon and French philosopher Rene Descartes both called on scientists throughout Europe so they would no longer rely on Aristotle’s power
Instead, conduct experiments and research on the basis of their own starting points and needs. What was put forward by Bacon and Descartes, was practiced by the great Galileo?
The use of star binoculars, a new discovery for astronomical research by Newton has revolutionized the investigation of the field, and what he did in the mechanical sector has produced what is now known as the “Newton’s law of motion” first.
Sir Isaac Newton’s Gravity Theory
With various scientific works achieved, Newton wrote a book Philosophiae Naturalis Principia Mathematica.
Book Philosophiæ Naturalis Principia Mathematica
The book is described as a theory of gravity in general, based on the laws of motion it finds. It is explained that objects will be pulled down because of the gravitational force.
In collaboration with Gottfried Leibniz, Newton developed the theory of calculus. Newton was the first person to explain motion theory and was instrumental in formulating circular motions from Kepler’s law.
Sir Isaac Newton expanded the law by assuming that a circular motion should not always be in a perfect circle (such as eclipse, hyperbole, and parabola).
Find the Color Spectrum
In Sir Isaac Newton’s biography, it is known that Newton discovered the color spectrum when conducting experiments by passing white light on a prism, he also believed that light was a collection of particles.
Newton also developed the law of cooling obtained from binomial theory and found a principle of momentum and angular momentum.
The opinion of the Head of the Berlin Scientific Academy about Newton: “Newton is a great genius that has ever existed and is the luckiest, which we cannot find more than a world system to establish.”
Other great scientists, such as William Harvey, inventor of circulatory issues and Johannes Kepler, the inventor of the planetary motion around the sun, presented information that was very basic for scholars.
Even so, pure science is still the passion of intellectuals, and still cannot be proven – when used in technology – that science can change the basic pattern of human life as predicted by Francis Bacon.
Although Copernicus and Galileo had pushed to the edge of some notions of ancient knowledge and had presented a more understanding of the universe, none of the carefully formulated minds had been able to deflect a pile of baseless notions.
While compiling it in a theory that allows the development of more scientific predictions. It was none other than Isaac Newton who was able to present a collection of theories that were neatly summarized and laid the first stone of modern science, which is now becoming an example of people.
Various Findings of Sir Isaac Newton
Newton himself rather reluctantly published and announced his discoveries. The basic idea was compiled long before 1669 but many of his theories were only known to the public many years later.
The first publication of his invention concerns the overturning of old assumptions about things about light. In a series of careful experiments, Newton discovered that what is commonly called “white light” is actually nothing but a mixture of all the colors contained in a rainbow.
And he also very carefully analyzed the consequences of the law of reflection and refraction of light. Adhering to this law he in 1668 designed and simultaneously built the first reflective binoculars, a binocular model used by most of the current star investigators.
Newton Reflector Telescope
This discovery, together with the results obtained in the field of optical experiments that he had demonstrated, was presented by him to the British royal research institute when he was twenty-nine years old.
Newton’s success in the field of optics alone may have been enough to put Newton in the order of the list of the 100 most influential people in the world. While there are still less important discoveries in the field of pure mathematics and in the field of mechanics.
His greatest offering in the field of mathematics was his discovery of “integral calculus” which he might have solved when he was twenty-three or twenty-four years old. This discovery is the result of the most important work in the field of modern mathematics.
It is not just like a seed from which the modern mathematical theory grows, but also the inevitable furniture that without its discovery the progress of modern knowledge that comes after is impossible.
Even though Newton didn’t do anything else, the discovery of his “integral calculus” alone was enough to guide him to the high ladder in the list of books.
But Newton’s most important discoveries were in the field of mechanics, knowledge around the movement of things. Galileo was the first inventor of the law to describe the motion of an object when it was not influenced by external forces.
Of course, all objects are influenced by external forces and the most important problem in mechanics is how objects move in that state.
This problem was solved by Newton in his second and famous law of motion and could be considered the most important law of classical physics.
The second law (mathematically described by the equation F = m.a) specifies that the acceleration of an object is equal to the net force divided by the mass of the object.
Against these two laws, Newton added his famous third law of motion (emphasizing that in each action, for example, physical strength, there is a reaction similar to that which is contradictory) and the most famous of his discoveries about the scientific rules of universal gravity law.
These four legal instruments, if combined, will form a unified system that applies to the whole macro system of mechanics, starting from the pendulum shake until the movements of the planets in their orbit around the sun can be monitored and their movements can be predicted.
Newton not only established the laws of mechanics, but he himself also used mathematical calculus tools and showed that these fundamental formulas could be used for problem-solving.
Newton’s law can and has been used on a wide scale in the scientific field and in the field of designing various technical equipment. In his lifetime, the most dramatic practice was in the field of astronomy.
In this sector, Newton stood at the front. In 1678 Newton published his famous book Mathematical principles concerning natural philosophy (usually summarized by the Principia only).
Newton put forward his theory of the law of gravity and about the law of motion. He shows how those laws can be used to precisely estimate the movements of the planets around the sun.
The main problem of astronomical movements is how to estimate the exact position and movement of stars and planets.
Thus Newton was completely solved with just one shot. For his works, Newton was often considered the greatest astronomer of all the greatest.
Newton also made a major contribution in the field of thermodynamics (investigation of heat) and in the field of acoustics (the science of sound).
And he also presents a clear explanation like the crystal of the principles of physics about the “preservation” of the amount of motion so as not to be wasted and the “preservation” of the motion of something angular.
The queue of this discovery if you want can be extended again: Newtonlah people who find binomial propositions in mathematics that are very logical and can be accounted for.
He, too, is none other than the first person to express convincingly about the origin of the stars. Newton breathed his last breath in 1727, buried in Westminster Abbey.