Udemy - Theoretical Classical Mechanics From Beginner to Expert 2022

Creation Time	Jan. 30, 2025, 2:02 a.m.
Last Access Time	Feb. 3, 2025, 3:52 a.m.
File Size	6.4 GB
Keywords	Mechanics From Beginner Classical - Udemy to 2022 Expert Theoretical
Total Requests	3
Total Files	232
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4. Dynamics Newton's approach/19. [Solution] Energy Spaceship.mp4 123.8 MB
11. Coupled oscillators Differential equation, Eigensystem & Fourier analysis/7. Fitting the numerical solution with harmonic functions.mp4 108.8 MB
3. [Level 2] More mathematical basics/4. Multidimensional derivatives Nabla operator, gradient, curl and divergence.mp4 104.5 MB
9. Differential equations Analytical methods and simple examples from physics/12. [Solution] Damped harmonic oscillator.mp4 101.7 MB
10. Differential equations Solving advanced physics problems numerically [Python]/24. Spaceship 55 Brake maneuver to reach moon orbit.mp4 95.3 MB
5. Dynamics of the circular motion/22. Spinning top Rotation, precession & nutation.mp4 90.9 MB
10. Differential equations Solving advanced physics problems numerically [Python]/18. 3-body problem 45 Analyzing the orbital motion of earth & moon.mp4 88.9 MB
8. [Level 4] Advanced mathematical basics/6. Complex numbers 4 - Exponentials & Polar representation.mp4 83.5 MB
10. Differential equations Solving advanced physics problems numerically [Python]/11. Example 4 Simulating a rolling ball - Two decoupled oscillators.mp4 80.0 MB
5. Dynamics of the circular motion/7. [Solution] Roller coaster.mp4 79.5 MB
4. Dynamics Newton's approach/15. Energy & Energy conservation.mp4 79.1 MB
11. Coupled oscillators Differential equation, Eigensystem & Fourier analysis/6. Recovering the eigenfrequencies by Fourier transform.mp4 76.0 MB
12. [Outlook] Chaos/4. Solving the Lorenz differential equation for the chaotic case.mp4 74.6 MB
10. Differential equations Solving advanced physics problems numerically [Python]/4. Background Euler method.mp4 73.7 MB
1. [Level 1] Overview & Mathematical basics/5. [Mathematical Basics] Vectors.mp4 68.6 MB
10. Differential equations Solving advanced physics problems numerically [Python]/6. Example 2 Free fall - Higher-order differential equations.mp4 67.6 MB
1. [Level 1] Overview & Mathematical basics/1. Structure of this course.mp4 66.9 MB
3. [Level 2] More mathematical basics/8. Integration From 1D to multidimensional integrals.mp4 66.8 MB
5. Dynamics of the circular motion/24. Inertial versus accelerated frame of reference Forces.mp4 65.6 MB
5. Dynamics of the circular motion/2. Centripetal force.mp4 63.8 MB
10. Differential equations Solving advanced physics problems numerically [Python]/16. 3-body problem 25 Coding the differential equations for sun, earth & moon.mp4 63.3 MB
5. Dynamics of the circular motion/26. Motion of planets Kepler’s 1st law.mp4 63.0 MB
3. [Level 2] More mathematical basics/3. Differentiation From derivatives in 1D to partial and directional derivatives.mp4 60.6 MB
3. [Level 2] More mathematical basics/10. Alternative coordinate systems.mp4 59.2 MB
7. Theoretical mechanics Hamilton's approach & beyond/8. [Exercise] Hamiltonian mechanics Kepler problem.mp4 59.1 MB
8. [Level 4] Advanced mathematical basics/14. Matrices 5 - Eigensystems Eigenvalues & Eigenvectors of a matrix.mp4 58.7 MB
8. [Level 4] Advanced mathematical basics/16. [Solution] Matrices.mp4 58.7 MB
10. Differential equations Solving advanced physics problems numerically [Python]/22. Spaceship 35 Simulating earth escape.mp4 58.6 MB
4. Dynamics Newton's approach/25. [Solution] Collision analysis.mp4 58.1 MB
3. [Level 2] More mathematical basics/7. [Solutions] 3-dimensional derivatives.mp4 57.6 MB
9. Differential equations Analytical methods and simple examples from physics/7. Homogeneous linear differential equations & Exponential ansatz.mp4 55.9 MB
4. Dynamics Newton's approach/11. [Solution] Forces Inclined plane and friction.mp4 55.6 MB
4. Dynamics Newton's approach/4. Weight & Gravity.mp4 55.5 MB
11. Coupled oscillators Differential equation, Eigensystem & Fourier analysis/4. Numerical solution of the coupled differential equations.mp4 55.2 MB
3. [Level 2] More mathematical basics/11. Integration in spherical coordinates.mp4 55.0 MB
8. [Level 4] Advanced mathematical basics/8. [Solution] Complex numbers.mp4 54.9 MB
10. Differential equations Solving advanced physics problems numerically [Python]/13. Rolling ball in Wolfram Mathematica.mp4 54.8 MB
5. Dynamics of the circular motion/20. [Solution] Torque & Angular momentum.mp4 54.8 MB
10. Differential equations Solving advanced physics problems numerically [Python]/20. Spaceship 15 Coding & Solving the differential equations.mp4 54.1 MB
5. Dynamics of the circular motion/11. Moment of inertia Sphere.mp4 53.8 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/4. D’Alembert’s principle Generalized coordinates & Example Pendulum.mp4 52.5 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/13. [Solution] Lagrangian mechanics Kepler problem.mp4 52.4 MB
11. Coupled oscillators Differential equation, Eigensystem & Fourier analysis/5. Analytical solution Determining the Eigensystem.mp4 51.7 MB
1. [Level 1] Overview & Mathematical basics/3. [Mathematical Basics] Derivatives.mp4 51.4 MB
4. Dynamics Newton's approach/8. Friction forces.mp4 51.0 MB
5. Dynamics of the circular motion/17. Angular momentum & Angular momentum conservation.mp4 49.8 MB
4. Dynamics Newton's approach/22. Elastic collisions.mp4 49.7 MB
9. Differential equations Analytical methods and simple examples from physics/2. What are differential equations Motivation & Example.mp4 48.6 MB
10. Differential equations Solving advanced physics problems numerically [Python]/21. Spaceship 25 Changing starting velocity Elliptical orbit around earth.mp4 48.4 MB
4. Dynamics Newton's approach/13. Work & Relation to potentials.mp4 48.3 MB
2. Kinematics/4. Definition of velocity and acceleration.mp4 47.2 MB
3. [Level 2] More mathematical basics/9. Line integrals.mp4 46.7 MB
10. Differential equations Solving advanced physics problems numerically [Python]/2. [How to] Download and install Python3 & Jupyter Notebook.mp4 46.3 MB
10. Differential equations Solving advanced physics problems numerically [Python]/10. Improvement Use the SciPy function solve_ivp.mp4 45.3 MB
5. Dynamics of the circular motion/14. [Solution] Rolling objects.mp4 44.2 MB
8. [Level 4] Advanced mathematical basics/13. Matrices 4 - Calculating the determinant of a matrix.mp4 44.1 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/21. Euler-Lagrange equation Atwood's machine.mp4 44.1 MB
3. [Level 2] More mathematical basics/12. Taylor expansion.mp4 43.9 MB
9. Differential equations Analytical methods and simple examples from physics/10. [Solution] Homogeneous differential equations.mp4 43.7 MB
5. Dynamics of the circular motion/23. Inertial versus accelerated frame of reference Velocity.mp4 43.7 MB
4. Dynamics Newton's approach/21. Inelastic collisions.mp4 43.3 MB
8. [Level 4] Advanced mathematical basics/12. Matrices 3 - Matrix multiplication.mp4 42.1 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/8. Lagrange equation.mp4 41.5 MB
10. Differential equations Solving advanced physics problems numerically [Python]/5. Example 1 Radioactive decay solved with a function.mp4 41.4 MB
10. Differential equations Solving advanced physics problems numerically [Python]/9. Adding damping and driving forces.mp4 41.3 MB
5. Dynamics of the circular motion/9. Moment of inertia.mp4 40.8 MB
10. Differential equations Solving advanced physics problems numerically [Python]/1. Section intro.mp4 40.5 MB
2. Kinematics/5. Derivatives and integrals in kinematics.mp4 40.5 MB
2. Kinematics/8. Superposition principle Throw in multiple dimensions.mp4 40.5 MB
8. [Level 4] Advanced mathematical basics/4. Complex numbers 2 - Addition, subtraction & Complex plane.mp4 40.2 MB
7. Theoretical mechanics Hamilton's approach & beyond/3. Mathematical detail Legendre transformation.mp4 39.8 MB
2. Kinematics/16. Difficult example Pendulum, swing & carousel.mp4 37.9 MB
10. Differential equations Solving advanced physics problems numerically [Python]/7. Example 3 Pendulum as a harmonic oscillator.mp4 37.6 MB
4. Dynamics Newton's approach/7. Pendulum & Harmonic oscillator.mp4 37.6 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/1. Section intro.mp4 37.2 MB
9. Differential equations Analytical methods and simple examples from physics/16. [Solution] Inomogeneous differential equation.mp4 37.2 MB
4. Dynamics Newton's approach/12. Conservative forces & Potentials.mp4 37.0 MB
9. Differential equations Analytical methods and simple examples from physics/1. Section intro.mp4 36.7 MB
10. Differential equations Solving advanced physics problems numerically [Python]/17. 3-body problem 35 Solving the differential equations for sun, earth & moon.mp4 36.3 MB
11. Coupled oscillators Differential equation, Eigensystem & Fourier analysis/1. Section intro.mp4 35.9 MB
2. Kinematics/6. Example Derivatives and integrals in kinematics.mp4 35.8 MB
2. Kinematics/17. Simplified example Harmonic oscillator.mp4 35.2 MB
10. Differential equations Solving advanced physics problems numerically [Python]/23. Spaceship 45 Simulating a moon encounter.mp4 33.1 MB
7. Theoretical mechanics Hamilton's approach & beyond/7. [Solution] Hamiltonian mechanics Pendulum.mp4 31.9 MB
10. Differential equations Solving advanced physics problems numerically [Python]/15. 3-body problem 15 Coupled differential equations for sun, earth & moon.mp4 31.7 MB
10. Differential equations Solving advanced physics problems numerically [Python]/8. Accurate solution of the pendulum.mp4 31.4 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/6. [Solution] D'Alembert's principle Inclined plane.mp4 31.0 MB
11. Coupled oscillators Differential equation, Eigensystem & Fourier analysis/3. Three coupled oscillators Equations of motion.mp4 31.0 MB
9. Differential equations Analytical methods and simple examples from physics/8. Example of exponential ansatz Harmonic oscillator.mp4 30.9 MB
8. [Level 4] Advanced mathematical basics/1. Section intro.mp4 30.3 MB
8. [Level 4] Advanced mathematical basics/10. Matrices 1 - What is a matrix.mp4 30.0 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/16. Hamilton’s principle of stationary action.mp4 29.9 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/24. Noether theorem Time invariance & Hamiltonian.mp4 29.6 MB
7. Theoretical mechanics Hamilton's approach & beyond/10. Hamilton-Jacobi equation & Alternative formulations of classical mechanics.mp4 29.2 MB
8. [Level 4] Advanced mathematical basics/5. Complex numbers 3 - Multiplication & division.mp4 29.0 MB
9. Differential equations Analytical methods and simple examples from physics/4. Classification of ordinary differential equations (ODE).mp4 28.5 MB
5. Dynamics of the circular motion/15. Torque.mp4 28.3 MB
8. [Level 4] Advanced mathematical basics/3. Complex numbers 1 - What are complex numbers.mp4 28.2 MB
2. Kinematics/20. [Solution] Roundabout, carousel, merry-go-round.mp4 28.1 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/19. Mathematical detour on action Calculus of variations.mp4 27.7 MB
5. Dynamics of the circular motion/1. Section intro.mp4 27.7 MB
3. [Level 2] More mathematical basics/1. Section intro.mp4 27.5 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/18. Why is Hamilton’s principle true - Example Vertical throw.mp4 27.1 MB
5. Dynamics of the circular motion/8. Rotational energy.mp4 26.9 MB
12. [Outlook] Chaos/5. Solving the Lorenz differential equation for the non-chaotic case.mp4 26.3 MB
5. Dynamics of the circular motion/25. Coriolis force.mp4 26.2 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/2. Constraints.mp4 25.8 MB
4. Dynamics Newton's approach/2. Mass, Inertia & Forces.mp4 25.7 MB
5. Dynamics of the circular motion/19. [Exercise] Torque & Angular momentum.mp4 25.7 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/17. Euler-Lagrange equation derived from Hamilton's principle.mp4 25.5 MB
4. Dynamics Newton's approach/5. Pulley.mp4 25.2 MB
2. Kinematics/14. Uniform circular motion Constant angular velocity.mp4 24.5 MB
2. Kinematics/13. Circular motion.mp4 24.3 MB
7. Theoretical mechanics Hamilton's approach & beyond/5. Phase space & Example Harmonic oscillator.mp4 24.2 MB
4. Dynamics Newton's approach/3. Newton's axioms.mp4 24.0 MB
5. Dynamics of the circular motion/10. Moment of inertia Stick.mp4 23.8 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/12. [Solution] Lagrangian mechanics Pendulum.mp4 23.6 MB
2. Kinematics/12. [Solution] Acceleration in a roller coaster.mp4 23.4 MB
4. Dynamics Newton's approach/1. Section intro.mp4 23.3 MB
2. Kinematics/2. Kinematics overview.mp4 22.8 MB
7. Theoretical mechanics Hamilton's approach & beyond/4. Hamilton’s equations of motion.mp4 22.8 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/22. Noether theorem.mp4 21.8 MB
7. Theoretical mechanics Hamilton's approach & beyond/6. [Exercise] Hamiltonian mechanics Pendulum & Kepler problem.mp4 21.3 MB
1. [Level 1] Overview & Mathematical basics/4. [Mathematical Basics] Integrals.mp4 21.1 MB
4. Dynamics Newton's approach/20. Momentum & Momentum conservation.mp4 21.0 MB
5. Dynamics of the circular motion/29. Section outro.mp4 20.9 MB
5. Dynamics of the circular motion/21. Comparison Translation versus rotation.mp4 20.8 MB
5. Dynamics of the circular motion/28. Motion of planets Kepler’s 3rd law.mp4 20.4 MB
4. Dynamics Newton's approach/18. [Exercise] Energy Spaceship.mp4 19.8 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/11. [Exercise] Lagrangian mechanics Pendulum & Kepler problem.mp4 19.5 MB
4. Dynamics Newton's approach/14. Work of pulleys.mp4 19.4 MB
4. Dynamics Newton's approach/16. Power.mp4 19.4 MB
9. Differential equations Analytical methods and simple examples from physics/3. Classification of differential equations.mp4 19.3 MB
7. Theoretical mechanics Hamilton's approach & beyond/1. Section intro.mp4 19.2 MB
11. Coupled oscillators Differential equation, Eigensystem & Fourier analysis/10. THANK YOU & GOODBYE!.mp4 19.1 MB
5. Dynamics of the circular motion/27. Motion of planets Kepler’s 2nd law.mp4 19.0 MB
2. Kinematics/15. Constant angular acceleration.mp4 18.9 MB
9. Differential equations Analytical methods and simple examples from physics/17. How to continue.mp4 18.7 MB
5. Dynamics of the circular motion/6. [Exercise] Roller coaster.mp4 18.1 MB
12. [Outlook] Chaos/1. Section intro.mp4 17.4 MB
2. Kinematics/9. About exercises and quizzes.mp4 17.0 MB
11. Coupled oscillators Differential equation, Eigensystem & Fourier analysis/9. Section outro.mp4 16.7 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/23. Noether theorem Rotation invariance & Angular momentum.mp4 16.4 MB
4. Dynamics Newton's approach/6. Forces of an inclined plane.mp4 16.1 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/3. D'Alembert's principle.mp4 16.1 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/7. Generalized forces.mp4 15.9 MB
4. Dynamics Newton's approach/10. [Exercise] Forces Inclined plane and friction.mp4 15.5 MB
9. Differential equations Analytical methods and simple examples from physics/13. Inhomogeneous linear differential equations.mp4 15.4 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/9. Euler-Lagrange equation (2nd kind).mp4 15.3 MB
2. Kinematics/21. Section outro.mp4 14.8 MB
4. Dynamics Newton's approach/26. Section outro.mp4 14.6 MB
9. Differential equations Analytical methods and simple examples from physics/14. Example Driven harmonic oscillator.mp4 13.9 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/5. [Exercise] D'Alembert's principle Inclined plane.mp4 13.7 MB
7. Theoretical mechanics Hamilton's approach & beyond/9. Time evolution & Poisson bracket.mp4 13.6 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/15. Lagrangian & Action.mp4 13.5 MB
4. Dynamics Newton's approach/24. [Exercise] Collision analysis.mp4 13.0 MB
2. Kinematics/1. Section intro.mp4 12.8 MB
12. [Outlook] Chaos/3. Lorenz systems - Explanation of the differential equation.mp4 12.5 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/26. Section outro.mp4 12.1 MB
7. Theoretical mechanics Hamilton's approach & beyond/12. Section outro.mp4 12.1 MB
9. Differential equations Analytical methods and simple examples from physics/5. Trivial case Direct integration.mp4 11.9 MB
2. Kinematics/3. Uniform motion in one dimension.mp4 11.5 MB
9. Differential equations Analytical methods and simple examples from physics/18. Section outro.mp4 10.8 MB
5. Dynamics of the circular motion/16. Levers.mp4 10.6 MB
2. Kinematics/7. Motion with constant acceleration.mp4 10.6 MB
5. Dynamics of the circular motion/4. Work of centripetal force.mp4 10.4 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/10. Euler-Lagrange equation Harmonic oscillator.mp4 10.4 MB
7. Theoretical mechanics Hamilton's approach & beyond/2. Hamiltonian.mp4 10.2 MB
5. Dynamics of the circular motion/3. Centripetal versus centrifugal force.mp4 9.9 MB
10. Differential equations Solving advanced physics problems numerically [Python]/19. 3-body problem 55 Comment on inclination of the moon.mp4 9.6 MB
2. Kinematics/11. [Exercise] Acceleration in a roller coaster.mp4 8.7 MB
5. Dynamics of the circular motion/13. [Exercise] Rolling objects.mp4 8.2 MB
3. [Level 2] More mathematical basics/13. Section outro.mp4 7.5 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/20. Euler-Lagrange equation (1st kind).mp4 7.4 MB
2. Kinematics/19. [Exercise] Roundabout, carousel, merry-go-round.mp4 6.6 MB
8. [Level 4] Advanced mathematical basics/11. Matrices 2 - Matrix addition & subtraction.mp4 6.6 MB
9. Differential equations Analytical methods and simple examples from physics/6. Example Free fall.mp4 6.5 MB
12. [Outlook] Chaos/7. Section outro.mp4 5.4 MB
9. Differential equations Analytical methods and simple examples from physics/19.1 4_Differential_equations.pdf 2.3 MB
6. [Level 3] Theoretical mechanics Lagrange's approach/27.1 3a_Lagrangian_Mechanics.pdf 1.5 MB
5. Dynamics of the circular motion/30.1 2b_Dynamics_Circular.pdf 1.4 MB
1. [Level 1] Overview & Mathematical basics/1.1 Structure.png 1.3 MB
4. Dynamics Newton's approach/27.1 2a_Dynamics.pdf 1.1 MB
2. Kinematics/22.1 1_Kinematics.pdf 1.0 MB
10. Differential equations Solving advanced physics problems numerically [Python]/25.1 02_Three_body.ipynb 566.6 KB
7. Theoretical mechanics Hamilton's approach & beyond/13.1 3b_Hamiltonian_Mechanics.pdf 558.2 KB
10. Differential equations Solving advanced physics problems numerically [Python]/12.1 01_Differential_equations.ipynb 427.8 KB
11. Coupled oscillators Differential equation, Eigensystem & Fourier analysis/8.1 03_Eigenvalue_coupled_oscillators.ipynb 273.5 KB
12. [Outlook] Chaos/6.1 04_Chaos_Lorenz.ipynb 187.2 KB
11. Coupled oscillators Differential equation, Eigensystem & Fourier analysis/2.1 03_Eigenvalue_coupled_oscillators_TEMPLATE.ipynb 143.6 KB
11. Coupled oscillators Differential equation, Eigensystem & Fourier analysis/2.2 figure_03_coupled_oscillators.png 18.9 KB
11. Coupled oscillators Differential equation, Eigensystem & Fourier analysis/8.2 figure_03_coupled_oscillators.png 18.9 KB
10. Differential equations Solving advanced physics problems numerically [Python]/3.1 01_Differential_equations_TEMPLATE.ipynb 12.1 KB
10. Differential equations Solving advanced physics problems numerically [Python]/14.1 02_Three_body_TEMPLATE.ipynb 8.5 KB
12. [Outlook] Chaos/2.1 04_Chaos_Lorenz_TEMPLATE.ipynb 2.1 KB
3. [Level 2] More mathematical basics/2. Explanation Please read before starting with this section!.html 884 bytes
8. [Level 4] Advanced mathematical basics/2. Explanation Please read before starting with this section!.html 727 bytes
8. [Level 4] Advanced mathematical basics/7. [Exercise] Complex numbers.html 338 bytes
3. [Level 2] More mathematical basics/6. [Exercise] 3-dimensional derivatives.html 324 bytes
1. [Level 1] Overview & Mathematical basics/2. About the following videos.html 280 bytes
2. Kinematics/10. Test your knowledge!.html 159 bytes
2. Kinematics/18. Test your knowledge!.html 159 bytes
3. [Level 2] More mathematical basics/5. Test your knowledge about the Nabla operator..html 159 bytes
4. Dynamics Newton's approach/9. Test your knowledge!.html 159 bytes
4. Dynamics Newton's approach/17. Test your knowledge!.html 159 bytes
4. Dynamics Newton's approach/23. Test your knowledge!.html 159 bytes
5. Dynamics of the circular motion/5. Test your knowledge!.html 159 bytes
5. Dynamics of the circular motion/12. Test your knowledge!.html 159 bytes
5. Dynamics of the circular motion/18. Test your knowledge!.html 159 bytes
6. [Level 3] Theoretical mechanics Lagrange's approach/14. Test your knowledge about Lagrangian mechanics.html 159 bytes
6. [Level 3] Theoretical mechanics Lagrange's approach/25. Test your knowledge about Lagrangian mechanics.html 159 bytes
7. Theoretical mechanics Hamilton's approach & beyond/11. Test your knowledge about Hamiltonian mechanics!.html 159 bytes
8. [Level 4] Advanced mathematical basics/9. Test your knowledge about complex numbers..html 159 bytes
Readme.txt 150 bytes
2. Kinematics/22. Slides of this section.html 149 bytes
4. Dynamics Newton's approach/27. Slides of this section.html 149 bytes
5. Dynamics of the circular motion/30. Slides of this section.html 149 bytes
6. [Level 3] Theoretical mechanics Lagrange's approach/27. Slides of this section.html 149 bytes
7. Theoretical mechanics Hamilton's approach & beyond/13. Slides of this section.html 149 bytes
9. Differential equations Analytical methods and simple examples from physics/19. Slides of this section.html 149 bytes
8. [Level 4] Advanced mathematical basics/15. [Exercise] Matrices.html 141 bytes
9. Differential equations Analytical methods and simple examples from physics/9. [Exercise] Homogeneous differential equations.html 141 bytes
9. Differential equations Analytical methods and simple examples from physics/11. [Exercise] Damped harmonic oscillator.html 141 bytes
9. Differential equations Analytical methods and simple examples from physics/15. [Exercise] Inomogeneous differential equation.html 141 bytes
10. Differential equations Solving advanced physics problems numerically [Python]/3. Download the template file.html 139 bytes
10. Differential equations Solving advanced physics problems numerically [Python]/14. Download the template file.html 139 bytes
11. Coupled oscillators Differential equation, Eigensystem & Fourier analysis/2. Download the template file.html 139 bytes
12. [Outlook] Chaos/2. Download the template file.html 139 bytes
10. Differential equations Solving advanced physics problems numerically [Python]/25. Download the final notebook.html 98 bytes
11. Coupled oscillators Differential equation, Eigensystem & Fourier analysis/8. Download the final notebook.html 98 bytes
12. [Outlook] Chaos/6. Download the final notebook.html 98 bytes
10. Differential equations Solving advanced physics problems numerically [Python]/12. Download the final notebook.html 53 bytes

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