A collection of numerical methods written in Nim
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Updated
Mar 29, 2024 - Nim
A collection of numerical methods written in Nim
A C project which can calculate the definite integral of real functions using Newton-Cotes quadrature formulas.
Implementation of well-known numerical methods.
A repository containing python codes for the numerical methods I studied in Numerical Analysis course during Spring 2022 semester
Contains sample implementations in python of the following numerical methods: Euler's Method, Midpoint Euler's Method, Runge Kuttta Method of Order 4, and Composite Simpson's Rule
Numerical Method Codes in Python
CODE FOR ALL MODULES OF NUMERICAL METHODS
My codes for the courses of Computer Programming, and Numerical and Computational Physics at IITR
Here I tried to implement all the algorithm which I learn from my Numerical Analysis course.
A Julia package to numerically approximate 1d function integrals using any of a variety of different methods.
Numerical Integration - Definite Integration
numerical methods on Pascal
Numerical methods, with explanation on jupyter notebook.
a collection of numerical methods written in python language.
Definite Integral calculator using Trapezoidal Rule, Simpson's Rule and Romberg's Method
Solutions to some problems in the ``Computational Physics'' book, written by Mark Newman
Codes for diffferent Numerical methods
Numerical methods and calculator written in C. (Integration and differentiation of several variables and more!). Ultimately turning into a math library at this point with support for multivariable operations. Much thanks to the creator of TinyExpr for ease of expression parsing
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