Catalog Description: This course teaches the fundamentals needed to predict the behavior of real-world electronic phenomena and applications via mathematical models and circuit analytical methods that simplify initially complex problems, rendering them solvable and understandable. Among the specific topics to be covered are time and frequency domain representation, complex arithmetic, phasor analysis of systems governed by differential equations, Kirchhoff’s laws, physical examples of electronic elements and devices, RLC circuits, op amp-based signal processors, feedback methods, and circuit models for domains beyond the electronic. Class contact time includes lectures, discussions, and a laboratory component designed to help solidify learned concepts.

Units: 4

Also Offered As: ELENG 64

Prerequisites: MATH 54

Grading Basis: Default Letter Grade; P/NP Option

Final Exam Status: Yes

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Class Schedule (Fall 2026):
EE 64 – TuTh 14:00-15:29, Stanley 105 – Kater Murch, Rikky Muller

Class Notes
PLEASE READ: Math 54 or Phyiscs 89 is an eforced prerequsite for this course. Students cannot enroll unless they have fulfilled this requirement.

Reserve groups will expire during the adjustment period.

*To enroll in this class, select the lecture and the 999 (placeholder) discussion and 999L (placeholder) Lab sections. Assignment to the actual sections will be managed by teaching staff.*

**Enrollment Permission seats are reserved for internal programs and are not open. Please DO NOT email the instructor or scheduling to request a seat**

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