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Electrical Engineering
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Overview Welcome to 6.002x Using the Tools Using the Tools Circuit Sandbox Math Review First Order Differential Equations First order Diffeq Second Order Differential Equations 2nd order diffeq Complex Numbers Complex Arithmetic Complex Geometry POLAR COORDINATES, PART 1 POLAR COORDINATES, PART 2 Euler's Formula inverse euler COMPLEX EXPNENTIALS COMPLEX REPLACEMENT COMPLEX ROOTS, PART 1 COMPLEX ROOTS, PART 2 Calculus at Length Calculus Entrance Survey Entrance Survey edX Survey Your Aspirations Your Attitudes Educational Background Social Learning General Questions Week 5 MOSFETs: Large Signals MOSFET Amplifiers: Small signal model Mosfet Amplifier Experiment Week 5 Tutorials Op Amp Small Signal Model Op Amp Small Signal Model Op Amp Small Signal Model Op Amp Small Signal Model Homework 5 Homework 5 Lab 5 Lab 5 Op Amp Small Signal Model bjt small signal model problem statement part 1 part 2 part 3 part 4 part 5 part 6 Large signal analysis of MOSFET amplifier Large signal analysis of MOSFET amplifier with source degeneration Transistor biasing with feedback Diode-connected MOSFET Week 6 Small-Signal Circuit Models Capacitors and First-Order Circuits Current Mirror Exercise Homework 6 Homework 6 Lab 6 Lab 6 Basic model of the MOSFET Parallel-plate Capacitor (A&L 9.7) Week 7 Inductors and First-Order Circuits Speed of Digital Circuits Homework 7 Homework 7 Lab 7 Lab 7 Geometry and Capacitance/Inductance (A&L 9.3) Constitutive Laws for Capacitors and Inductors (A&L 9.6) Unknown Capacitance (A&L 9.1) Unknown Inductance (A&L 9.2) Time-varying Capacitance (A&L 9.5) Types of Capacitors Midterm Exam Fall 2013 Midterm midterm info midterm problems Week 8 Ramps, Steps, and Impulses State and Memory Week 8 Tutorials Homework 8 Homework 8 Lab 8 Lab 8
Electrical Engineering
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Circuits and Electronics Ⅱ Anant Agarwal
The course introduces engineering in the context of the lumped circuit abstraction. Topics covered include: resistive elements and networks; independent and dependent sources; switches and MOS transistors; digital abstraction; amplifiers; energy storage elements; dynamics of first- and second-order networks; design in the time and frequency domains; and analog and digital circuits and applications. Design and lab exercises are also significant components of the course. The course is organized by weeks. To keep pace with the class, you are expected to complete all the work by the due dates indicated. Homeworks and labs must be completed by the Sunday of the week following the one in which they are posted. Weekly coursework includes interactive video sequences, readings from the textbook, homework, online laboratories, and optional tutorials. The course will also have a midterm exam and a final exam. Those who successfully earn enough points will receive an honor code certificate from MITx.
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