Below are some of the areas where Logarith is used extensively. Among the 17 equations that changed the world, Calculus is one of the widely used equations. Its application is diversified in all the fields including Mathematics, Physics, Chemistry, Medicine, and even Economics. It was invented in the 17th century by two mathematicians, Gottfried Leibniz and Isaac Newton.
It is a branch of maths that involves the study of rates of change. Calculus will help in understanding the movement of particles, stars, and matter and their changes in real time. The Law of Gravitation was invented by Isaac Newton in Gravitation is basically a force of attraction that pulls two objects together.
It is the "unit" Imaginary Number. The square root of minus 1 is coined by Euler in The imaginary number is once considered to be impossible and hence is called imaginary. It was discovered by a Swiss mathematician Leonhard Euler Euler's formula comprises a fundamental property of three-dimensional solids polyhedra. In simple terms, normal distribution, sometimes called the bell curve, is a function representing the distribution of many random variables as a symmetrical bell-shaped graph.
The normal distribution was given by C F Gauss in It is a bell shaped graph which comprises two basic terms- mean and standard deviation. Some of the applications of Normal Distribution. The one-dimensional wave equation was given by d'Alembert in Among the 17 equations that changed the world, the Wave equation is one of the most important equations in mechanics.
It tells the movement of strings and wires. It also describes the movement of fluid surfaces. It is a mathematical tool that plays an important role in the field of communication. Fourier Transform is extensively used in the field of Signal Processing. Important applications of Fourier Transform. It is a partial differential equation that tells the flow of viscous fluid substances.
Navier-Stokes Equation describes the flow of fluid in its environment. In Biomedical Sciences, this equation is used to demonstrate how blood flows through the body. Some applications of Navier-Stokes Equation. This equation is named after the physicist and mathematician James Clerk Maxwell.
It describes the quality of energy. The second law of thermodynamics describes the relationships between heat thermal energy , and other forms of energy, and how this energy is affecting matter. The second law of thermodynamics was given by German scientist Rudolf Clausius in The theory comprises a direction for the speed of light to explain the relationship between energy and matter. Einstein sought to explain situations in which Newtonian physics might fail to deal successfully with phenomena, and in so doing proposed revolutionary changes in human concepts of time, space and gravity.
It is a critical outcome in quantum mechanics, and its revelation was a huge milestone in the advancement of the subject. The Schrodinger equation plays the role of Newton's laws and conservation of energy in classical mechanics - i.
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