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Bartkowiak, Electric Circuit Analysis, Wiley (Text) (Supplement with circuit simulator).Boylestad, Introductry Circuit Analysis, Prentice Hall (Text).The following are suitable texts and/or references for this course: Mesh Analysis OR Nodal Analysis (DC) Students will be able to correctly determine electrical resistance, capacitance and inductance, respectively from: resistivity, dielectric permittivity, and core permeability as well as geometric properties of each element. Students will be able to correctly employ the following laws, rules and methods to analyze circuits: 1.A preprogrammed scientific calculator will be used to solve simultaneous equations and compute impedance in polar and rectangular form. Students will correctly calculate current, voltage, resistance, impedance and power by applying algebra, complex algebra and to a limited degree geometry and trigonometry to DC and AC quantities.AC multisource circuits will be covered in EET 114 (Electrical Circuits II). For DC multisource circuits, students will correctly compute current(s) using Branch Current Analysis and Mesh Analysis or Nodal Analysis.For single source circuits, students will correctly calculate total resistance and total impedance as seen by the source as well as compute current(s) and voltage(s) associated with each device in the circuit.The specific course outcomes supporting the program outcomes are: OUTCOME 1 Students should be able to apply basic mathematical, scientific, and engineering concepts to technical problem solving.Students should be able to apply basic knowledge in electronics, electrical circuit analysis, electrical machines, microprocessors, and programmable logic controllers.(Outcome 1).(AC methods of analysis are covered in EET 114.)ĮET 101 contributes to the following EET program outcomes: Concepts of voltage, current, power, resistance, capacitance, inductance, impedance, conductance and susceptance are covered. Methods of analysis, Branch Current Analysis and Mesh or Nodal Analysis, are performed on DC circuits. The purpose of the course is to teach the fundamentals of both DC and AC series/parallel circuit analysis. Course prerequisites: Math 81 (co-requisite)Įlectrical Circuits I is a required course for freshmen students in both the Electrical Engineering Technology (2EET) and Mechanical Engineering Technology (2MET) associate degree programs.
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Direct and alternating current concepts through series/parallel circuits. Fundamental theory of resistance, impedance, current, voltage, power, capacitance and inductance. IE T 105 – Economics of Industry.112Įlectrical Engineering Technology Course OutlinesĮET 101 – Electrical Circuits I Standard Course Outline (Updated: Fall 2005) Catalog Description:ĮET 101: Electrical Circuits I (3 credits). 107 EMET 440 – Electro-Mechanical Project Design. 104 EMET 430 – Programmable Logic Controls II. 101 EMET 410 – Automatic Control Systems. 98 EMET 405 – Fluid Mechanics and Thermodynamics. 94 EMET 350 – Quality Control, Inspection and Design. 91 EMET 330 – Measurement Theory and Instrumentation. 77 EMET 311 – Spatial Analysis and Advanced CAD. 73 Electro-Mechanical Engineering Technology. 68 ME T 206 – Dynamics and Machine Elements. 66 MCH T 214 – Strength and Properties of Materials Laboratory. 64 MCH T 213 – Strength and Properties of Materials. 61 MCH T 111 – Mechanics for Technology: Statics. 59 IE T 216 – Production Design Laboratory. 52 IE T 101 – Manufacturing Materials, Processes, and Laboratory. 50 EG T 201 – Advanced Computer-Aided Drafting. 48 EG T 114 – Spatial Analysis and Computer-Aided Drafting. 46 EG T 102 – Introduction to Computer-Aided Drafting. 45 EG T 101 – Technical Drawing Fundamentals. 40 ET 5 – Engineering Methods in Engineering Technology. 37 ET 2 – Engineering Technology Orientation. 34 EE T 221 – Linear Electronics Laboratory. 32 EE T 220 – Programmable Logic Controllers. 27 EE T 216 – Linear Electronic Circuits. 24 EE T 213W – Fundamentals of Electrical Machines Using Writing Skills. 19 EE T 210 – Fundamentals of Semiconductors. 14 EE T 120 – Digital Electronics Laboratory. 11 EE T 118 – Electrical Circuits Laboratory II. 2 EE T 109 – Electrical Circuits I Laboratory. Volume I Engineering Technology Programs Course Outlines Table of Contents Page Electrical Engineering Technology. Technology Accreditation Commission of the Accreditation Board for Engineering and Technology, Inc. The Pennsylvania State University, Altoona College Jto the COURSE OUTLINES Electrical Engineering Technology Mechanical Engineering Technology Electro-Mechanical Engineering Technology Submitted by