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Course Criteria
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3.00 Credits
This course covers the methodology and applications of econometric forecasting and time series analysis. Topics include linear regression model, stationarity, modeling seasonality, ARIMA models, and volatility. Prerequisite(s): ECO 260 or 262, ECO 255 or 270, and ECO 380. (3,0) 3 credits
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3.00 Credits
Advanced third and fourth year Applied Economics students will be placed in a public or private sector setting in which the student will be able to gain work experience in applied economic analysis. A written report on the internship experience is required of the student at the conclusion of the internship. Students may not repeat this course for credit. Prerequisite(s)s: ECO 250, ECO 260 or 262, ECO 255 or 270, ECO 380. (3,0) 3 credits
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3.00 Credits
This course introduces students to the methods and techniques of economic analysis, research and report writing. Topics include methods of impact analysis, data and statistical analysis, interpretation of results, documentation, article preparation, and the report presentation. Prerequisite(s): ECO 250, ECO 260 or 262, ECO 255 or 270, ECO 380. (3,0) 3 credits
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3.00 Credits
This course is a follow-up to the Economic Research and Reporting course. Its goal is to prepare students to conduct independent research. In consultation with their advisor, students will develop a senior research project in an area of current economic interest. They will participate in seminars and present their research, culminating in a completed report and presentation on their research topic. Prerequisite(s): ECO 490 (3,0) 3 credits
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1.00 - 2.00 Credits
An introduction to the fundamental concepts of Digital Electronics, Number Systems, Combinational Circuits, Boolean Algebra, Karnaugh Map Techniques, Adders, Multiplexers, Code Converters, etc., Measurement of Waveforms and Timing Diagrams in Digital Circuits. The student will become familiar with commonly adopted techniques of measurement using an oscilloscope. Corequisite: EET 111 (1,3) 2 credits Fall, Spring
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3.00 Credits
An introduction to the application of computers in Electrical Engineering Technology using MS-DOS based PC's, and the "C" programminlanguage (Turbo C). Topics covered are basic programming as applied to electric network analysis and program control of electronic instrumentation using the standard IEEE488 bus. Prerequisite(s): EET 111 (2,3) 3 credits Fall, Spring
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3.00 - 4.00 Credits
A basic course in direct current circuit theory. Concepts of charge, current and voltage; Ohm's Law, Kirchhoff's Laws; analysis of series, parallel,and combination circuits; mesh and nodal analysis; Superposition, Thevenin's & Norton's theorems; maximum power transfer theorem;electric fields and capacitance; magnetic fields and inductance; analysis of R-C and R-L switching networks. The laboratory is coordinated with, and supports, the theory course. Corequisite: MTH 129 (3,1,2) 4 credits Fall, Spring
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2.00 Credits
This is the second of a two-course sequence designed to provide the background needed to analyze electric networks. Topics covered in this course include sinusoidal waveforms and non-sinusoidal waveforms; the phasor representation of sinusoidal signals; the use of complex numbers to analyze R-C, R-L, and R-L-C networks under sinusoidal steady-state conditions; series and parallel resonance; average power calculations; simple passive filters, frequency response (dB magnitude and phase) and its relations to the step response of simple R-C, R-L and R-L-C networks; transformer principles and types of transformers; three phase balanced systems. Prerequisite(s): EET 111, MTH 129 (3 hr theory, 1 hr recitation, 2 hr lab) 4 credits Fall, Spring, Summer
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3.00 - 4.00 Credits
The fundamentals of semiconductor diodes and Bipolar Junction Transistors (BJT's) are discussed. Topics covered include: diode circuits, rectifiers, RC filters, zener diodes and zener regulated power supplies, biasing schemes and Q point operating conditions of BJT transistors. In addition, small signal BJT amplifiers are analyzed at midband frequency in terms of voltage gain, current gain and power gain, input impedance and output impedance. Formal report writing is part of the laboratory requirement. Corequisites: EET 113 (3,3) 4 credits Spring, Summer
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4.00 Credits
An introductory lecture/demonstration course in the terminology, concepts, and components of electric circuits. The aim is to give students from other disciplines (e.g. Office Management, Nursing, etc.) sufficient knowledge and understanding to effectively communicate with technical specialists in this field. Prerequisite(s): Sequential (Integrated) Math 1 (4,0) 4 credits
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