Isaac Newton was born in an era that we know today as the Scientific Revolution. The Scientific Revolution (1540s - 1680s) was a time of discoveries and inventions that separated the church’s beliefs from science. As the Scientific Revolution started, individuals increasingly began to question the traditional beliefs of the church, paving the way for a more scientific approach to understanding the world and space. During the Scientific Revolution, people started to question the church’s beliefs about the world and space. Instead of just going along with what the church was saying, scientists wanted to prove if the church was right or not. Isaac Newton is one of the most famous people in the Scientific Revolution. Isaac Newton is a revolutionary …show more content…
Through the famous story of the falling apple, Newton deduced that if gravity could pull the apple from the tree, it had the potential to exert its force on objects situated much farther away. This realization laid the foundation for Newton's theory of gravity: “Newton’s theory helped prove that all objects are subject to gravity” (“Isaac Newton: Who He Was, Why Apples are Falling”). The law explained many things, from the orbits of the planets around the sun to the influence of the moon and the sun on tides. With Newton’s help, the Scientific Revolution was a time of breaking away from the church, and his discovery of gravity has a big part in that feat. Newton's contributions to science went beyond his revolutionary theories; they played a big role in the context of the Scientific Revolution. The Scientific Revolution was a time when people broke free from the church’s control and started exploring nature themselves. Newton’s discovery of gravity played a key role in changing the church’s ideas about the universe, leading to a shift in religious …show more content…
Calculus charted the constantly changing and variable state of nature, like force and acceleration, in a way that existing algebra and geometry could not. With calculus, Newton could tackle problems that classical geometry couldn't solve. He could draw tangents to curves, determine the lengths of curves, and solve other complex problems. This new mathematical tool became invaluable to centuries of mathematicians, engineers, and scientists. Isaac Newton's creation of calculus completely changed the way we understand and solve problems related to change and motion (Tyson). By providing a set of rules and techniques specifically designed to handle varying quantities, calculus opened up new paths of exploration in fields like physics and engineering. It allowed scientists and engineers to precisely analyze and predict how things change and interact over time. Newton's work had a lasting impact on mathematics and science, and his ideas continue to inspire future generations of mathematicians and scientists to build upon his invention. “Calculus has proved invaluable to centuries of mathematicians, engineers, and scientists” (“Isaac Newton”). Calculus has such a big impact on people today, such as being a subject taught in school, but also because one of the main types of math used by companies like NASA or Space X, which use it to launch rockets into space.