| LEC # | TOPICS | KEY DATES |
|---|---|---|
| 1 | Review of Linear Algebra | |
| 2 | Review of Linear Algebra (cont.) | |
| 3 | Review of Linear Algebra (cont.) | |
| 4 | Differences, Derivatives, and Boundary Conditions | |
| 5 | Inverses and Delta Functions | |
| 6 | Eigenvalues and Eigenvectors | Problem set 1 due |
| 7 | Positive Definite Matrices and Least Squares | |
| 8 | Numerical Linear Algebra: LU, QR, SVD | |
| 9 | Equilibrium and the Stiffness Matrix | Problem set 2 due |
| 10 | Oscillation by Newton’s Law I | |
| 11 | Oscillation by Newton’s Law II | |
| 12 | Graph Models and Kirchhoff’s Laws | Problem set 3 due |
| 13 | Damped Harmonic Oscillators and the Laplace Transform I | |
| 14 | Damped Harmonic Oscillators and the Laplace Transform II | |
| [no lecture] | Midterm exam | |
| 15 | Review of Vector Calculus I | |
| 16 | Review of Vector Calculus II; Fourier Series | |
| 17 | Fourier Series (cont.) | Problem set 4 due |
| 18 | Polar Coordinates and Laplace’s Equation | |
| 19 | Laplace’s Equation and Separation of Variables | |
| 20 | Laplace’s Equation and Finite Difference | Problem set 5 due |
| 21 | The Finite Element Method I | |
| 22 | The Finite Element Method II | |
| 23 | The Discrete Fourier Transform and the FFT I | Problem set 6 due |
| 24 | The Discrete Fourier Transform and the FFT II | |
| 25 | Convolution and Signal Processing | |
| 26 | Fourier Integrals | Problem set 7 due |
| 27 | Course Review | Take-home final exam released |
| 28 | Guest Lectures | Take-home final exam due |
| 29 | Special Topic: Deep Learning/Double Descent |
Calendar
Course Info
Instructor
Departments
As Taught In
Summer
2020
Level
Topics
Learning Resource Types
assignment_turned_in
Problem Sets with Solutions
grading
Exams with Solutions
notes
Lecture Notes
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