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Numerical Analysis

Curriculum

  • 1 Section
  • 38 Lessons
  • 10 Weeks
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  • Numerical Analysis
    38
    • 2.1
      Lecture 1: Programing Basics
    • 2.2
      Lecture 2: Introduction to Pointers
    • 2.3
      Lecture 3: Pointers And Arrays
    • 2.4
      Lecture 4: External Functions and Argument Passing
    • 2.5
      Lecture 5: Representation of Numbers
    • 2.6
      Lecture 6: Numerical Error
    • 2.7
      Lecture 7: Error Propagation and Stability
    • 2.8
      Lecture 8: Polynomial Interpolation I
    • 2.9
      Lecture 9: Polynomial Interpolation II
    • 2.10
      Lecture 10: Error In Interpolation Polynomial
    • 2.11
      Lecture 11: Polynomial Interpolation
    • 2.12
      Lecture 12: Cubic Spline Interpolation
    • 2.13
      Lecture 13: Data Fitting Linear Fit I
    • 2.14
      Lecture 14: Data Fitting Linear Fit II
    • 2.15
      Lecture 15: Data Fitting Non Linear Fit
    • 2.16
      Lecture 16: Matrix Elimation and Solution
    • 2.17
      Lecture 17: Solution To Linear Equations
    • 2.18
      Lecture 18: Matrix Elimination
    • 2.19
      Lecture 19: Eigen Values of A Matrix
    • 2.20
      Lecture 20: Eigen Values And Eigen Vectors
    • 2.21
      Lecture 21: Solving NonLinear Equations
    • 2.22
      Lecture 22: Solving NonLinear Equations Newton Rapson Method
    • 2.23
      Lecture 23: Methods For Solving NonLinear Equations
    • 2.24
      Lecture 24: System of NonLinear Equations
    • 2.25
      Lecture 25: Numerical Derivations
    • 2.26
      Lecture 26: High order Derivatives From Difference Formula
    • 2.27
      Lecture 27: Numerical Integration Basic Rules
    • 2.28
      Lecture 28: Comparison of Different Basic Rules
    • 2.29
      Lecture 29: Gaussian Rules
    • 2.30
      Lecture 30: Comparison of Gaussian Rules
    • 2.31
      Lecture 31: Solving Ordinary Differential Equations I
    • 2.32
      Lecture 32: Solving ordinary differential equations II
    • 2.33
      Lecture 33: Adaptive step size Runge Kutta scheme
    • 2.34
      Lecture 34: Partial Differential Equations
    • 2.35
      Lecture 35: Explicit and Implicit Methods
    • 2.36
      Lecture 36: The Crank Nicholson Scheme For Two Spatial
    • 2.37
      Lecture 37: Fourier Transforms
    • 2.38
      Lecture 38: Fast Fourier Transforms
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Lecture 25: Numerical Derivations
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Lecture 27: Numerical Integration Basic Rules
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