![]() ![]() The red and blue lines are tangents to the curve.ĭifferential calculus is also useful for graphing. On a curve, two different points have different slopes. This was a very long and hard process, and had to be done each time people wanted to work something out. Until calculus was invented, the only way to work this out was to cut the time into smaller and smaller pieces, so the average speed over the smaller time would get closer and closer to the actual speed at a point in time. Certainly it is more difficult for a driver to figure out a car's speed using only its odometer (distance meter) and clock-without a speedometer. But this is only an average: they travelled faster at some times (say on a highway), and slower at other times (say at a traffic light or on a small street where people live). So if a town is 80 kilometres (50 miles) away and a person in a car gets there in one hour, they have traveled at an average speed of 80 kilometres (50 miles) per hour. The speed of an object is how far it travels in a particular time. Some examples of variables are distance and time, because they can change. One often writes variables as letters such as the letter x: "x" can be equal to 1 at one point and 200 at another. ![]() For example, the number 1 is always equal to 1, and the number 200 is always equal to 200. This is different from numbers because numbers are always the same. See the main article: Differential calculusĭifferential calculus is used to find the rate of change of a variable-compared to another variable. ![]() The English word "calculate" comes from the same Latin word.ĭifferential calculus The name "calculus" was the Latin word for a small stone the ancient Romans used in counting and gambling. But both Newton and Leibniz were the first to design a system that describes how things change over time, and can predict how they will change in the future. They were not the first people to use mathematics to describe the physical world - Aristotle and Pythagoras came earlier, and so did Galileo Galilei, who said that mathematics was the language of science. Other parts come from Leibniz, such as the symbols used to write it. Some parts of modern calculus come from Newton, such as its uses in physics. Most mathematicians today agree that both men share the credit equally. Scientists from England supported Newton, but scientists from the rest of Europe supported Leibniz. Many years later, the two men argued over who discovered it first. Leibniz wanted to measure the space (area) under a curve (a line that is not straight). ![]() Newton wanted to have a new way to predict where to see planets in the sky, because astronomy had always been a popular and useful form of science, and knowing more about the motions of the objects in the night sky was important for navigation of ships. In the 1670s and 1680s, Sir Isaac Newton in England and Gottfried Leibniz in Germany figured out calculus at the same time, working separately from each other. Calculus is used in many different sciences such as physics, astronomy, biology, engineering, economics, medicine and sociology. Differential calculus divides ( differentiates) things into small ( different) pieces, and tells us how they change from one moment to the next, while integral calculus joins ( integrates) the small pieces together, and tells us how much of something is made, overall, by a series of changes. There are two different types of calculus. JSTOR ( September 2020) ( Learn how and when to remove this template message)Ĭalculus is a branch of mathematics that describes continuous change.Unsourced material may be challenged or removed. Please help improve this article by adding reliable sources. This article needs more sources for reliability. ![]()
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