Lectures
Here is the schedule for the computer science half of Integrated Science.
| Week | Day | Month | Lecture | Who | Slides | Precept | |
|---|---|---|---|---|---|---|---|
| 1 | M | 31 | Jan | Fourier Series | CGC | DH | |
| T | 1 | Feb | CS: Intro & Obj. Oriented Programming review | OGT | |||
| W | 2 | Feb | Fourier Integral & Power Spectra | CGC | |||
| TH | 3 | Feb | CS: Linked Structures | OGT | |||
| F | 4 | Feb | Vector Calculus & 3D Wave Equation | CGC | |||
| 2 | M | 7 | Feb | Eigenfrequencies of 3D enclosures | CGC | Qian | |
| T | 8 | Feb | CS: Searching and Sorting | OGT | |||
| W | 9 | Feb | Point Sources, Interference and Beats | CGC | |||
| TH | 10 | Feb | Diffraction as Fourier Analysis | CGC | |||
| F | 11 | Feb | CS: Searching and Sorting (cont.) | OGT | |||
| 3 | M | 14 | Feb | Coulomb's law and electric fields | CGC | DH | |
| T | 15 | Feb | CS: Symbol tables, hashing, and blast | OGT | |||
| W | 16 | Feb | Gauss' law and Poisson's equation | CGC | |||
| TH | 17 | Feb | CS: Microarrays and Clustering I | OGT | |||
| F | 18 | Feb | Electrostatic potential & curl-free fields | CGC | |||
| 4 | M | 21 | Feb | Energy storage and capacitors | CGC | Qian | |
| T | 22 | Feb | CS: Trees and Clustering II | OGT | |||
| W | 23 | Feb | E-fields in materials; Resistance | CGC | |||
| TH | 24 | Feb | CS: Theory of Computation | OGT | |||
| F | 25 | Feb | DC circuits and Kirchoff's laws | CGC | |||
| 5 | M | 28 | Feb | Time-varying fields and AC circuits | CGC | DH | |
| T | 1 | Mar | CS: Universality/Computability | OGT | |||
| W | 2 | Mar | Electro-Stat Mech: Debye Screening | CGC | |||
| TH | 3 | Mar | CS: Complexity/Intractability | OGT | |||
| F | 4 | Mar | Membranes and Action Potentials | CGC | |||
| 6 | M | 7 | Mar | CS: Graphs | OGT | Qian | |
| T | 8 | Mar | Magnetic fields and Ampere's law | CGC | |||
| W | 9 | Mar | Lorentz force and Biot-Savart law | CGC | |||
| TH | 10 | Mar | CS: Bioinformatics | OGT | |||
| F | 11 | Mar | Faraday's law, self-induction, LC circuits | CGC |
