- Course: EE 210 | EECS at UC Berkeley
Catalog Description: Advanced treatment of classical electromagnetic theory with engineering applications Boundary value problems in electrostatics Applications of Maxwell's Equations to the study of waveguides, resonant cavities, optical fiber guides, Gaussian optics, diffraction, scattering, and antennas Units: 3 Related Areas:
- Statistics 210B: Lecture Notes - University of California, Berkeley
header tex stat bib stat-macros tex Lecture 1, January 16 [ps] [pdf] Lecture 2, January 18 [ps] [pdf] Lecture 3, January 23 [ps] [pdf] Lecture 4, January 25 [ps] [pdf] Lecture 5, February 1 [ps] [pdf] Lecture 6, February 6 [ps] [pdf] Lecture 7, February 8 [ps] [pdf] Lecture 8, February 13 [ps] [pdf] Lecture 9, February 15 [ps] [pdf] Lecture 10, February 20 [ps] [pdf] Lecture 11, February 22
- Home - EECS at Berkeley
The Department of Electrical Engineering and Computer Sciences (EECS) at UC Berkeley offers one of the strongest research and instructional programs in this field anywhere in the world
- Electrical Engineering 210B - University of California, Berkeley
example: CS 61a, ee 20, cs 188 example: Hilfinger, hilf*, cs 61a
- Courses - EECS at Berkeley
Unlike many institutions of similar stature, regular EE and CS faculty teach the vast majority of our courses, and the most exceptional teachers are often also the most exceptional researchers The department’s list of active teaching faculty includes eight winners of the prestigious Berkeley Campus Distinguished Teaching Award
- 2022 Spring EECS 16B 210 DIS 210 | UCB Class Search - classes. berkeley. edu
The course sequence provides a comprehensive introduction to core EECS topics in machine learning, circuit design, control, and signal processing while developing key linear-algebraic concepts motivated by application contexts
- EECS Courses - University of California, Berkeley
Here is information about curriculum, admissions and alternative forms of enrollment for EECS courses
- Course: ELENG210 | EECS at UC Berkeley
Applications of Maxwell's Equations to the study of waveguides, resonant cavities, optical fiber guides, Gaussian optics, diffraction, scattering, and antennas Prerequisites: EL ENG 117; or PHYSICS 110A and PHYSICS 110B Final exam status: No final exam
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