3.27 GB | 00:23:15 | mp4 | 1280X720  | 16:9
Genre:eLearning |Language:English

Files Included :
2  Course Overview  (7.4 MB)
Week One Introduction  (3.6 MB)
1  Binary Numbers   Lecture 1  (53.93 MB)
3  Double Precision   Lecture 2  (69.79 MB)
1  MATLAB as a Calculator   Lecture 3  (14.45 MB)
10  Matrices   Lecture 7  (15.46 MB)
13  Logicals   Lecture 8  (9.77 MB)
16  Conditionals   Lecture 9  (9.51 MB)
18  Loops   Lecture 10  (12.41 MB)
3  Scripts and Functions   Lecture 4  (17.22 MB)
5  Vectors   Lecture 5  (8.85 MB)
7  Line Plots   Lecture 6  (13.95 MB)
1 1  This equation will change how you see the world (the logistic map)  (73.09 MB)
2  Logistic Map (Part A)   Lecture 11  (81.65 MB)
4  Logistic Map (Part B)   Lecture 12  (40 MB)
Week Two Introduction  (2.77 MB)
1  Bisection Method   Lecture 13  (45.71 MB)
3  Newton's Method   Lecture 14  (54.67 MB)
5  Secant Method   Lecture 15  (45.77 MB)
1  Order of Convergence  Lecture 16  (24.49 MB)
3  Convergence of Newton's Method   Lecture 17  (54.66 MB)
1  Fractals from Newton's Method   Lecture 18  (45.42 MB)
3  Coding the Newton Fractal   Lecture 19  (46.97 MB)
5  Exploring the Newton Fractal  History, Creation, and Structure   Deep Dive Maths  (110.32 MB)
6  Root-Finding in MATLAB   Lecture 20  (26.21 MB)
1  Feigenbaum Delta (Part A)   Lecture 21  (90.38 MB)
3  Feigenbaum Delta (Part B)   Lecture 22  (93.5 MB)
4  Feigenbaum Delta (Part C)   Lecture 23  (41.66 MB)
Week Three Introduction  (3.21 MB)
1  Gaussian Elimination without Pivoting   Lecture 24  (52.35 MB)
3  Gaussian Elimination with Partial Pivoting   Lecture 25  (28.27 MB)
5  LU Decomposition with Partial Pivoting   Lecture 26  (48.16 MB)
1  Operation Counts   Lecture 27  (46.86 MB)
3  Operation Counts for Gaussian Elimination   Lecture 28  (40.55 MB)
8  Operation Counts for Forward and Backward Substitution   Lecture 29  (31.04 MB)
1  Eigenvalue Power Method   Lecture 30  (58.8 MB)
3  Eigenvalue Power Method (Example)  Lecture 31  (43.88 MB)
1  Matrix Algebra in MATLAB   Lecture 32  (46.24 MB)
1  Systems of Nonlinear Equations   Lecture 33  (55.28 MB)
3  Systems of Nonlinear Equations (Example)   Lecture 34  (49.47 MB)
1  Fractals from the Lorenz Equations   Lecture 35  (47.27 MB)
Week Four Introduction  (2.87 MB)
1  Midpoint Rule   Lecture 36  (49.03 MB)
4  Trapezoidal Rule   Lecture 37  (46.44 MB)
6  Simpson's Rule   Lecture 38  (29.06 MB)
1  Composite Quadrature Rules   Lecture 39  (66.39 MB)
3  Gaussian Quadrature   Lecture 40  (48.31 MB)
5  Adaptive Quadrature   Lecture 41  (56.3 MB)
1  Quadrature in MATLAB   Lecture 42  (10.34 MB)
1  Interpolation   Lecture 43  (45.25 MB)
3  Cubic Spline Interpolation (Part A)   Lecture 44  (72.39 MB)
5  Cubic Spline Interpolation (Part B)   Lecture 45  (44.38 MB)
1  Interpolation in MATLAB   Lecture 46  (15.15 MB)
1  Bessel Functions and their Zeros   Lecture 47  (32.02 MB)
Week Five Introduction  (2.77 MB)
1  Euler Method   Lecture 48  (30.16 MB)
3  Modified Euler Method   Lecture 49  (43.17 MB)
5  Runge-Kutta Methods   Lecture 50  (59.09 MB)
6  Second-Order Runge-Kutta Methods   Lecture 51  (34.67 MB)
9  Higher-Order Runge-Kutta Methods   Lecture 52  (44.65 MB)
1  Higher-Order ODEs and Systems   Lecture 53  (26.38 MB)
1  Adaptive Runge-Kutta Method   Lecture 54  (50.6 MB)
3  Integrating ODEs in MATLAB (Part A)   Lecture 55  (31.84 MB)
4  Integrating ODEs in MATLAB (Part B)   Lecture 56  (21.67 MB)
1  Shooting Method for Boundary Value Problems   Lecture 57  (43.91 MB)
1  The Two-Body Problem (Part A)   Lecture 58  (37.77 MB)
3  The Two-Body Problem (Part B)   Lecture 59  (42.76 MB)
Week Six Introduction  (4.44 MB)
1  Boundary and Initial Value Problems   Lecture 60  (18.09 MB)
3  Central Difference Approximation   Lecture 61  (32.95 MB)
1  Discrete Laplace Equation   Lecture 62  (36.28 MB)
3  Natural Ordering   Lecture 63  (33.27 MB)
5  Matrix Formulation   Lecture 64  (50.66 MB)
8  MATLAB Solution of the Laplace Equation (Direct Method)   Lecture 65  (38.74 MB)
1  Jacobi, Gauss-Seidel and SOR Methods   Lecture 66  (56.9 MB)
3  Red-Black Ordering   Lecture 67  (13.49 MB)
4  MATLAB Solution of the Laplace Equation (Iterative Method)   Lecture 68  (28.22 MB)
1  Explicit Methods for Solving the Diffusion Equation   Lecture 69  (56.02 MB)
10  MATLAB Solution of the Diffusion Equation   Lecture 73  (29.81 MB)
4  Von Neumann Stability Analysis of the FTCS Scheme   Lecture 70  (67.69 MB)
6  Implicit Methods for Solving the Diffusion Equation   Lecture 71  (37.75 MB)
8  Crank-Nicolson Method for the Diffusion Equation   Lecture 72  (65.03 MB)
1  Two-Dimensional Diffusion Equation   Lecture 74  (54.71 MB)
1  Concluding Remarks  (8.06 MB)
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