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Physics 204

Electric Circuits and Laboratory

For the Engineering / Advanced Physics Track

 A 4-credit course providing a basic and practical understanding of passive electrical circuits and computer-based data acquisition and analysis, including basic circuit laws, methods of circuit analysis, circuit theorems, operational amplifiers, capacitors and inductors, sinusoids and phasors, sinusoidal steady state analysis, frequency response, and test and measurement instruments, virtual instruments, and  data acquisition software.

Prerequisite or Co-requisite: PHYS 121 and MATH 250  

The course will be offered in two 1.5-hour lecture and two 1-hour lab periods per week

Lectures: 

Week 1:        Basic Concepts, including charge and current, voltage, power and energy, circuit elements, and passive sign convention.

Week 2:        Fundamentals of circuit laws, including Ohm's Law, nodes, branches and loops, Kirchhoff's Laws, series and parallel resistor networks, and voltage and current dividers. 

Week 3:        Introduction to programming for data acquisition.

Week 4:        Methods of analysis, including linear equations, nodal analysis, super node, mesh analysis, and super meshes.

Week 5:        Circuit theorems, including linearity, superposition, source transformations, Thevenin and Norton’s theorems, and maximum power transfer.

Week 6-7:    Operational Amplifiers, including practical op amps, ideal op amp, voltage follower, inverting amplifier, non-inverting amplifier, summing amplifier, and difference amplifier.

Week 8:        Capacitors and inductors, including capacitors, series and parallel capacitors, inductors, and integrators and differentiators.

Week 9-10:  First-order circuits, including RC Circuits: source-free, RL circuits: source-free, singularity Functions, RC Circuits: step response, RL circuits: step response, and first-order op amp circuits.

Week 11-13: Second order Circuits, including series RLC circuits and step response, parallel RLC circuits and step response, and general Second-order Circuits.

Week 14:      Review 

Laboratory Projects

Week 1-2         Ohms’ law and Fundamentals of electrical measurements

Week 3            Introduction to software and techniques of for data acquisition.

Week 4            Programming for voltage and current measurements and sweeping voltage sources, and digital oscilloscope.

Week 5            Thevenin’s theorems,

Week 6            The Wheatstone bridge and control circuit

Week 7            Programming for a virtual instrument for monitoring and display room temperature.

Week 8            Capacitors, inductors

Week 9            Phase shift circuits

Week 10          Impedance

Week 11-12     Resonance circuits, frequency response

Week 13          Operational amplifier

Week 14          Review 

 

Books

"Fundamentals of Electric Circuit", C. K. Alexander, M. N. O. Sadiku, McGraw-Hill, 2000.

“Today’s Electronics”, Joseph G. Sloop. E&L Instruments. 

Instruction manuals for MATLAB and LABVIEW

 

Reference Texts:

"The Analysis of Linear Systems", R. E. Thomas, and A. J. Rosa, Prentice-Hall, 1994. 

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