Circular motion and centripetal acceleration.
Ernazar Abdikamalov
Circular motion and centripetal acceleration.
6:28
Kinematics
Ernazar Abdikamalov
Kinematics
18:21
Vectors, sum, dot and cross products
Ernazar Abdikamalov
Vectors, sum, dot and cross products
14:31
Units, dimensions, order of magnitude
Ernazar Abdikamalov
Units, dimensions, order of magnitude
10:46
Computational Physics Lecture 27, Finite-Difference Methods for Parabolic PDEs
Ernazar Abdikamalov
Computational Physics Lecture 27, Finite-Difference Methods for Parabolic PDEs
31:00
Computational Physics Lecture 26, Introduction to Partial Differential Equations.
Ernazar Abdikamalov
Computational Physics Lecture 26, Introduction to Partial Differential Equations.
34:39
Computational Physics Lecture 25, Boundary-Value Problem for ODEs
Ernazar Abdikamalov
Computational Physics Lecture 25, Boundary-Value Problem for ODEs
27:48
Computational Physics Lecture 24, Implicit Euler Method and Stiff ODEs.
Ernazar Abdikamalov
Computational Physics Lecture 24, Implicit Euler Method and Stiff ODEs.
23:29
Computational Physics Lecture 23, Runge-Kutta Methods
Ernazar Abdikamalov
Computational Physics Lecture 23, Runge-Kutta Methods
44:23
Computational Physics Lecture 22, Numerical Integration of ODEs
Ernazar Abdikamalov
Computational Physics Lecture 22, Numerical Integration of ODEs
37:32
Computational Physics Lecture 21, Romberg Integration and Gauss Quadrature
Ernazar Abdikamalov
Computational Physics Lecture 21, Romberg Integration and Gauss Quadrature
38:44
Computational Physics Lecture 20, Numerical Integration I
Ernazar Abdikamalov
Computational Physics Lecture 20, Numerical Integration I
44:37
Computational Physics Lecture 19, Discrete Fourier Transform and Fast Fourier Transform
Ernazar Abdikamalov
Computational Physics Lecture 19, Discrete Fourier Transform and Fast Fourier Transform
39:48
Computational Physics Lecture 18, Fourier Series and Transform
Ernazar Abdikamalov
Computational Physics Lecture 18, Fourier Series and Transform
44:26
Computational Physics Lecture 16, General Linear Least Squares Regression and Non-Linear Regression
Ernazar Abdikamalov
Computational Physics Lecture 16, General Linear Least Squares Regression and Non-Linear Regression
38:48
Computational Physics Lecture 17, Interpolation
Ernazar Abdikamalov
Computational Physics Lecture 17, Interpolation
40:36
Computational Physics Lecture 15, Linear Regression
Ernazar Abdikamalov
Computational Physics Lecture 15, Linear Regression
31:21
Computational Physics Lecture 14, Multi-Dimensional Unconstrained Optimization
Ernazar Abdikamalov
Computational Physics Lecture 14, Multi-Dimensional Unconstrained Optimization
29:48
Computational Physics Lecture 13, One-Dimensional Unconstrained Optimization
Ernazar Abdikamalov
Computational Physics Lecture 13, One-Dimensional Unconstrained Optimization
31:03
Computational Physics Lecture 12, Special Matrices and Gauss-Seidel
Ernazar Abdikamalov
Computational Physics Lecture 12, Special Matrices and Gauss-Seidel
30:18
Computational Physics Lecture 11, LU Decomposition and Matrix Inversion
Ernazar Abdikamalov
Computational Physics Lecture 11, LU Decomposition and Matrix Inversion
31:27
Computational Physics Lecture 10, Gauss Elimination Method for Linear Systems
Ernazar Abdikamalov
Computational Physics Lecture 10, Gauss Elimination Method for Linear Systems
37:29
Computational Physics Lecture 9, Systems of Nonlinear Equations
Ernazar Abdikamalov
Computational Physics Lecture 9, Systems of Nonlinear Equations
27:22
Computational Physics Lecture 8, Comparison of Bracketing and Open Methods for Root Finding.
Ernazar Abdikamalov
Computational Physics Lecture 8, Comparison of Bracketing and Open Methods for Root Finding.
40:08
Computational Physics Lecture 7, Open Methods for Root Finding.
Ernazar Abdikamalov
Computational Physics Lecture 7, Open Methods for Root Finding.
34:05
Computational Physics Lecture 6, Root Finding and Bracketing Methods.
Ernazar Abdikamalov
Computational Physics Lecture 6, Root Finding and Bracketing Methods.
34:21
Computational Physics Lecture 5, Round-off and Truncation Errors
Ernazar Abdikamalov
Computational Physics Lecture 5, Round-off and Truncation Errors
23:23
Computational Physics Lecture 4, Introduction to Matplotlib
Ernazar Abdikamalov
Computational Physics Lecture 4, Introduction to Matplotlib
26:11
Computational Physics Lecture 3, Introduction to Python
Ernazar Abdikamalov
Computational Physics Lecture 3, Introduction to Python
33:11
Computational Physics Lecture 2, Introduction to Python
Ernazar Abdikamalov
Computational Physics Lecture 2, Introduction to Python
42:17