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Introduction to Error analysis and linear systems

Gaussian elimination with partial pivoting

LU Decomposition

Jacobi and Gauss Seidel Methods

Numerical Differentiation and Integration - Part 3

Numerical Differentiation and Integration - Part 2

Numerical Differentiation and Integration - Part 1

Interpolation and Approximation - Part 9

Interpolation and Approximation - Part 8

Interpolation and Approximation - Part 7

Interpolation and Approximation - Part 6

Interpolation and Approximation - Part 5

Interpolation and Approximation - Part 4

Interpolation and Approximation - Part 3

Interpolation and Approximation - Part 2

Interpolation and Approximation - Part I

Solution of a system of Linear Algebraic Equations - Part - 12

Solution of a system of Linear Algebraic Equations - Part - 11

Solution of a system of Linear Algebraic Equations - Part - 10

Solution of a system of Linear Algebraic Equations - Part - 9

Solution of a system of Linear Algebraic Equations - Part - 8

Solution of a system of Linear Algebraic Equations - Part - 7

Solution of a system of Linear Algebraic Equations - Part - 6

Solution of a system of Linear Algebraic Equations - Part - 5

Solution of a system of Linear Algebraic Equations - Part - 4

Solution of a system of Linear Algebraic Equations - Part - 3

Solution of a system of Linear Algebraic Equations - Part - 2

Solution of a system of Linear Algebraic Equations - Part - 1

Solution of Non-linear algebraic equations - part 3

Solution of Nonlinear algebraic equations - part 09

Solution of Nonlinear algebraic Equations - Part 8

solution of non-linear algebraic equations - part 4

Solution of non-linear algebraic equations - part 6

Solution of non-linear algebraic equations - part 5

Solution of Nonlinear algaebraic Equations - part 7 (Contd.). Polynomial equations

Solution of Nonlinear Algebraic equations - part 2

Solution of Non-linear algebraic equations - part I

Description:

Explore a comprehensive course on numerical methods covering error analysis, linear systems, and advanced mathematical techniques. Dive into Gaussian elimination, LU decomposition, and iterative methods like Jacobi and Gauss-Seidel. Master numerical differentiation and integration through multiple lessons. Delve deep into interpolation and approximation concepts across nine detailed parts. Gain expertise in solving systems of linear algebraic equations through a 12-part series. Tackle non-linear algebraic equations, including polynomial equations, in a multi-part exploration. Develop practical skills in applying these numerical methods to solve complex mathematical problems.

Numerical Methods

NIOS

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#Mathematics #Algebra #Linear Algebra #Linear Systems #Interpolation #Applied Mathematics #Numerical Methods #Numerical Analysis #Numerical Integration #Gaussian Elimination #LU Decomposition #Numerical Differentiation

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