Knowledge in #HigherMathematics
Cutting Stock Problem
This file contains a detailed description of the Cutting Stock Problem. It explains the theory with the help of an example. It describes the role of constraints in a problem and how it affects the overall structure of the Problem. It is one of the basic concepts of Linear Programming in operational Research.
Jatin Kumar
LAPLACE TRANSFORMATION
THIS CLEARS ABOUT LAPLACE AND INVERSE LAPLACE TRANSFORMATION WHICH IS VERY NEEDFUL IN MATH AND OTHER SCIENCE SUBJECTS IN HIGHER STUDIES.
Subham Bera
DIFFERENTIAL EQUATION
A Differential Equation is an equation with a function and one or more of its derivatives: differential equation y + dy/dx = 5x Example: an equation with the function y and its derivative dy/dx Differential Equations can describe how populations change, how heat moves, how springs vibrate, how radioactive material decays and much more. They are a very natural way to describe many things in the universe.
HIGHER ENGINEERING MATHEMATICS
Historically, engineering mathematic consisted mostly of applied analysis, most notably: differential equations; real and complex analysis (including vector and tensor analysis); approximation theory (broadly construed, to include asymptotic, variational, and perturbative methods, representations, numerical analysis); Fourier analysis; potential theory; as well as linear algebra and applied probability, outside of analysis. These areas of mathematics were intimately tied to the development of Newtonian physics, and the mathematical physics of that period. This history also left a legacy: until the early 20th century subjects such as classical mechanics were often taught in applied mathematics departments at American universities, and fluid mechanics may still be taught in (applied) mathematics as well as engineering departments
newton interpolation formulae
Here, I posted a few questions on newton interpolation formulae. Hope it may help you.