Teaching
Below is a list of courses that I've taught as a tenure-track faculty member:
EEN/PHY 1001: Introduction to Physics and Engineering (Lecture)
EEN/PHY 1001: Introduction to Physics and Engineering (Lecture)
An introductory course aimed at introducing new students in physics and engineering degree programs to those disciplines, methods of study applicable to those programs, expectations of careers in those disciplines, and resources and opportunities available to them during their undergraduate education.
An introductory course aimed at introducing new students in physics and engineering degree programs to those disciplines, methods of study applicable to those programs, expectations of careers in those disciplines, and resources and opportunities available to them during their undergraduate education.
EEN 1100: Logic Design (Lecture) / EEN 1101: Logic Design Lab (Lab)
EEN 1100: Logic Design (Lecture) / EEN 1101: Logic Design Lab (Lab)
Introductory course in digital logic design that will introduce the students to number systems and codes, logic gates, Boolean algebra, combinational logic circuits, flip-flops and related devices, digital arithmetic operations and circuits, counters and registers, etc.
Introductory course in digital logic design that will introduce the students to number systems and codes, logic gates, Boolean algebra, combinational logic circuits, flip-flops and related devices, digital arithmetic operations and circuits, counters and registers, etc.
PHY 1151: Principles of Physics 1 (Lecture) / PHY 1152: Principles of Physics 1 Lab (Lab)
PHY 1151: Principles of Physics 1 (Lecture) / PHY 1152: Principles of Physics 1 Lab (Lab)
Newton’s Laws of Motion, Energy, Momentum, Conservation Principles, Gravity, Simple Harmonic Motion, Waves, Heat. This course is designed for majors in geology, life sciences, health professions, applied engineering and technology, etc.
Newton’s Laws of Motion, Energy, Momentum, Conservation Principles, Gravity, Simple Harmonic Motion, Waves, Heat. This course is designed for majors in geology, life sciences, health professions, applied engineering and technology, etc.
PHY 1161: Principles of Physics 2 (Lecture) / PHY 1162: Principles of Physics 2 Lab (Lab)
PHY 1161: Principles of Physics 2 (Lecture) / PHY 1162: Principles of Physics 2 Lab (Lab)
Electricity and Magnetism, Optics, Modern Physics. Designed for majors in geology, life sciences, health professions, industrial technology, etc.
Electricity and Magnetism, Optics, Modern Physics. Designed for majors in geology, life sciences, health professions, industrial technology, etc.
PHY 1362: General Physics 2 Lab (Lab)
PHY 1362: General Physics 2 Lab (Lab)
Thermodynamics, electricity and magnetism. The second of a three-semester sequence designed for students in physics, electrical and computer engineering, chemistry, mathematics, etc.
Thermodynamics, electricity and magnetism. The second of a three-semester sequence designed for students in physics, electrical and computer engineering, chemistry, mathematics, etc.
PHY 1371: General Physics 3 (Lecture) / PHY 1372: General Physics 3 Lab (Lab)
PHY 1371: General Physics 3 (Lecture) / PHY 1372: General Physics 3 Lab (Lab)
Wave motion and sound, optics, modern physics. The third of a three-semester sequence designed for students in physics, electrical and computer engineering, chemistry, mathematics, etc.
Wave motion and sound, optics, modern physics. The third of a three-semester sequence designed for students in physics, electrical and computer engineering, chemistry, mathematics, etc.
EEN/PHY 3150: Electronics (Lecture/Lab combined course)
EEN/PHY 3150: Electronics (Lecture/Lab combined course)
A study of the fundamental principles of, and hands-on experience with, analog electronics. Topics include: DC, AC and transient circuit analysis techniques, rectification, active and passive filtering, regulation, oscillator circuits, and computer simulations using PSpice.
A study of the fundamental principles of, and hands-on experience with, analog electronics. Topics include: DC, AC and transient circuit analysis techniques, rectification, active and passive filtering, regulation, oscillator circuits, and computer simulations using PSpice.
EEN/PHY 3270: Circuit Analysis (Lecture)
EEN/PHY 3270: Circuit Analysis (Lecture)
Basic principles of network analysis, including Kirchoff’s laws, node and mesh equations, equivalent circuits, operational amplifiers, transient analysis, sinusoidal steady-state analysis, three-phase circuits, transformers, network functions, and frequency response.
Basic principles of network analysis, including Kirchoff’s laws, node and mesh equations, equivalent circuits, operational amplifiers, transient analysis, sinusoidal steady-state analysis, three-phase circuits, transformers, network functions, and frequency response.
EEN/PHY 3410: Electricity and Magnetism 1 (Lecture)
EEN/PHY 3410: Electricity and Magnetism 1 (Lecture)
Coulomb’s law, electric fields, potential, Gauss’ law, capacitance, dielectrics, electrostatic energy, DC circuits, introduction to magnetic fields and forces, induction.
Coulomb’s law, electric fields, potential, Gauss’ law, capacitance, dielectrics, electrostatic energy, DC circuits, introduction to magnetic fields and forces, induction.
EEN/PHY 3420: Electricity and Magnetism 2 (Lecture)
EEN/PHY 3420: Electricity and Magnetism 2 (Lecture)
Advanced magnetism, magnetic materials, magnetic energy, varying electric currents, AC circuits, Maxwell’s equations, electromagnetic radiation.
Advanced magnetism, magnetic materials, magnetic energy, varying electric currents, AC circuits, Maxwell’s equations, electromagnetic radiation.
EEN 4301: Digital Systems and Design (Lecture/Lab combined course)
EEN 4301: Digital Systems and Design (Lecture/Lab combined course)
This course focuses on the principles and practices of digital systems and design. Topics include logic signals and gates, CMOS logic, bipolar logic, combinational and sequential logic design, VHDL hardware description language, and an introduction to memory, complex programmable logic devices, and field-programmable gate arrays.
This course focuses on the principles and practices of digital systems and design. Topics include logic signals and gates, CMOS logic, bipolar logic, combinational and sequential logic design, VHDL hardware description language, and an introduction to memory, complex programmable logic devices, and field-programmable gate arrays.
EEN 4501: Feedback and Control Systems (Lecture/Lab combined course)
EEN 4501: Feedback and Control Systems (Lecture/Lab combined course)
This introductory course on modern feedback and control systems including topics in stability, root locus, frequency response methods, Nyquist/Bode diagrams, application of Laplace and Fourier transforms, lead-lag, PID compensators, digital control, and practical hardware implementation.
This introductory course on modern feedback and control systems including topics in stability, root locus, frequency response methods, Nyquist/Bode diagrams, application of Laplace and Fourier transforms, lead-lag, PID compensators, digital control, and practical hardware implementation.
EEN 4601: Semiconductor Devices (Lecture)
EEN 4601: Semiconductor Devices (Lecture)
The physics and operating principles of semiconductor devices including pn junctions, Schottky barriers, bipolar junction transistors, field effect transistors, and optical devices.
The physics and operating principles of semiconductor devices including pn junctions, Schottky barriers, bipolar junction transistors, field effect transistors, and optical devices.