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Course Descriptions - Engineering
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HP GRAPHING CALCULATOR
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ENGR 080
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1.0 Credits
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11 hours of lecture |
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Basic and advanced calculator function. Graphing matricies, statistics, conversions, programming and directories are included. Additionaltopics are covered as required. Developed to help students become more proficient using their HP calculators. Prerequisite: "C" or better in MATH 030. [SE]
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SCIENCE & ENGR ACADEMY I
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ENGR 101
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Fall |
1.0 Credits
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0 hours of lecture - 22 hours of lab |
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The first in a three-course sequence for students interested in Science and Engineering. Topics include foundational information about programs and careers in Science and Engineering, and an introduction to planning and effectiveness-improvement techniques. Prerequisite: Eligibility for MATH 103 and ENGL& 101.
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SCI & ENGR ACADEMY II
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ENGR 102
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Winter |
1.0 Credits
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0 hours of lecture - 22 hours of lab |
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The second in a three-course sequence for students interested in Science and Engineering. Topics include hands-on exposure to industry practices, projects and professionals. Additionally, students are introduced to career planning. Prerequisite: Completion of ENGR 101.
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SCI & ENGR ACADEMY III
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ENGR 103
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Spring |
1.0 Credits
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0 hours of lecture - 22 hours of lab |
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The third in a three-course sequence for students interested in Science and Engineering. Topics guide students to apply their Science and Engineering field knowledge to career/education planning and simulated/actual cases. Prerequisite: Completion of ENGR 102.
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INTRO TO AEROSPACE ENGR
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ENGR 107
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Spring |
2.0 Credits
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11 hours of lecture - 22 hours of lab |
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Introduction to general aerospace industry topics: lift, drag, propulsion, performance, stability and control, design, and testing. Includes a team approach to design activities such as paper aircraft design and high powered rocket construction. Prerequisite: ENGR& 104 (or ENGR 110) or consent of Instructor. [SE]
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INTRO TO ENGINEER
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ENGR 109
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Fall Winter Spring |
5.0 Credits
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55 hours of lecture |
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Introduction to the engineering profession: its branches, principles,and practices. Engineering problem-solving, methods of analysis and design, and an introduction to engineering fundamentals. Prerequisite:MATH 103 or equivalent, and completion of, or concurrent enrollment in MATH 111 or equivalent. [SE]
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ENGINEERING SKETCHING
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ENGR 113
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Fall Winter Spring |
2.0 Credits
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11 hours of lecture - 22 hours of lab |
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Engineering communication and graphics through freehand sketching. Visualization and development of orthographic theory, scales, and lettering. Prerequisite: A grade of "C" or better in MATH 095.
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GDT
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ENGR 115
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2.0 Credits
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11 hours of lecture - 22 hours of lab |
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Basics of geometric dimensioning and tolerancing: what it is and why use it, GDT symbols and their use, maximum and least material conditions, datums, and geometric characteristics. AutoCAD will be used to dimension drawings using GDT. Prerequisite: ENGR& 114 and ENGR 140 (or ENGR 112 and 114), or consent of Instructional Unit. [SE]
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INTRO TO ELEC/COMP ENGR
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ENGR 120
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Fall |
5.0 Credits
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44 hours of lecture - 33 hours of lab |
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Introduction to electrical engineering, computer science and engineering processes, principles, problem-solving techniques, and contemporary tools. Application of in-class learning to hands-on projects and exploration of current industry trends and implications. Prerequisite: A grade of "C" or better in MATH 103.
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FIELD SURVEYING
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ENGR 121
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Winter |
5.0 Credits
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33 hours of lecture - 44 hours of lab |
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Basic theory of surveying, measurement and calculation. Topics include: measurement and determination of boundaries, areas, and shapes; location through traversing techniques; error theory; compass adjustments; public land system; use of programmable calculators; and principles of measurements of distances, elevation and angles. Concurrent enrollment in ENGR 121 lab required. Prerequisite: A grade of "C" or better in MATH& 151 (or MATH 113).
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BASIC AUTOCADD
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ENGR 140
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Winter Spring |
4.0 Credits
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16 hours of lecture - 55 hours of lab |
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Architecture including design, construction, and engineering for the non-major. Student works with programmed materials and reports to theinstructor during engineering graphics class. [GE]
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BASIC SOLIDWORKS
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ENGR 150
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Fall Spring |
4.0 Credits
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16 hours of lecture - 55 hours of lab |
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Parametric solids modeling with SolidWorks, covering the breadth of the software at a basic level. Create part, assembly, and drawing files, including design tables and multiple configurations. Recommended foranyone with good computer skills. [SE]
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CO-OP WORK EXP
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ENGR 199
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Fall Winter Spring |
5.0 Credits
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0 hours of lecture |
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Supervised work experience in an approved job. Completion of specific learning objectives and employer evaluation. Completion of, or concurrent enrollment in, HDEV 195, 198, or 200. Prerequisite: Consent of Instructional Unit. [GE]
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AUTOCAD CUSTOMIZATION
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ENGR 214
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Spring |
3.0 Credits
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11 hours of lecture - 44 hours of lab |
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Advanced AutoCAD development. Customization and programming AutoLISP.Prerequisite: ENGR 114 or consent of Instructional Unit. [SE]
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MATERIALS SCIENCE
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ENGR 221
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Spring |
5.0 Credits
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55 hours of lecture |
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Basic structure and properties of materials. Phase equilibrium and transformations. Mechanical properties, electronic structure, thermal, electrical, and magnetic properties. Prerequisite: CHEM& 142 (or CHEM 132). [SE]
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MANUFACTURING PROCESSES
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ENGR 239
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Spring |
5.0 Credits
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33 hours of lecture - 44 hours of lab |
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Introduction to manufacturing processes, emphasizing methods and practices used when machining, welding, and fabricating metals and relatedmaterials. [SE]
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DIGITAL LOGIC DESIGN
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ENGR 250
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Winter |
5.0 Credits
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44 hours of lecture |
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Digital logic design, testing and implementation, including Boolean Algebra, Karnaugh map and design of logic circuits to solve practical problems using sequential/combinational/synchronous/asynchronous circuits, application of standard SSI/MSI/LSI logic systems, design/test/implement development cycle and Hardware Description Language (HDL). Cannot receive credit for both ENGR 237 and ENGR 250. Prerequisite: A grade of "C" or better in ENGR 120 (or CSE 120).
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ELEC CIRCUITS & SIGNALS
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ENGR 252
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Winter |
5.0 Credits
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44 hours of lecture |
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Continuation of Electrical Circuits. Analysis and design of RLC circuits in sinusoidal steady state, complex-frequency domain of linear andlumped parameter circuits, active/passive filter circuits, poly phaseand two-port circuits. Application of Fourier series, Fourier transforms and computer tools in circuit analysis. Prerequisite: ENGR& 204 (or ENGR 251). [SE]
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SIGNALS AND SYSTEMS
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ENGR 253
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Spring |
5.0 Credits
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44 hours of lecture |
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Concepts and applications in signal processing and linear system theory. Utilization of Fourier Analysis in both continuous and discrete time signals and systems. Role of sampling and the process of reconstructing a continuous-time signal from its samples and basics of communication systems. Application of Laplace transform and Z-transform. Prerequisite: ENGR 252.
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DIGITAL SYS AND MICRO
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ENGR 270
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Spring |
5.0 Credits
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44 hours of lecture - 33 hours of lab |
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Continuation of the Digital Design sequence. Covering synchronous/asynchronous state machines, shift registers, arithmetic circuits and devices, microprocessor internal and system architecture, design and subsystem interfacing, assembly language, and programmable logic devices, design for test, documentation standards, and use of computer-based tools. Prerequisite: A grade of "C" or better in ENGR 250. [SE]
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SELECTED TOPICS
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ENGR 280
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Fall Winter Spring |
5.0 Credits
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55 hours of lecture |
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The course focuses on selected topics in Engineering. Topics vary, and course theme and content change to reflect new topics. Because the course varies in content, it is repeatable for credit for different topics. [SE]
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SPECIAL PROJECTS
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ENGR 290
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Fall Winter Spring |
6.0 Credits
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0 hours of lecture |
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Opportunity to plan, organize and complete special projects approved by the department. Prerequisite: Consent of Instructional Unit. [GE]
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INTRO TO DESIGN
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ENGR&104
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Fall Winter Spring |
5.0 Credits
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55 hours of lecture |
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Introduction to career and educational choices for engineering students: strategies to achieve a BS in Engineering: topics include applied problem solving and team-building skills. Suggested for students interested in engineering. [SE]
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ENGINEERING GRAPHICS
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ENGR&114
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Fall Winter Spring |
4.0 Credits
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33 hours of lecture - 22 hours of lab |
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Elements of technical graphical communication as used in engineering,design, and manufacturing. Through a combination of freehand sketching techniques as well as the use of scales and triangles, you will solve drawing problems in orthographic multiview, auxiliary, and isometricprojections, section views, descriptive geometry, and dimensioning/tolerancing. Prerequisite: Eligibility for MATH 095 or higher. [SE]
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ELECTRICAL CIRCUITS
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ENGR&204
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Fall |
5.0 Credits
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44 hours of lecture |
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Basic concepts of AC and DC electrical circuits. Analyze and design voltage and current relationships for series and parallel RLC circuit. Use of Kirchhoff's laws, Thevenin/Norton theorems, Operational Amplifier circuits, and Step/Natural/Steady-State circuit response. Use of test and measurement equipments in a laboratory setting. Prerequisite: MATH& 152 (or MATH 211).
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STATICS
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ENGR&214
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Fall Winter |
5.0 Credits
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55 hours of lecture |
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Solution of two and three dimensional vector systems using vector algebra notation and free-body diagrams. Friction, centroids, moment of inertia, radius of gyration, and loads involved in structures, machines, and trusses. Prerequisite: MATH& 152 (or MATH 211). [SE]
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DYNAMICS
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ENGR&215
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Winter Spring |
5.0 Credits
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55 hours of lecture |
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Kinematics and kinetics of particles, systems of particles and rigid bodies. Force/acceleration, work/energy and impulse/momentum problem solving techniques will be applied to two and three dimensional systems. Prerequisite: ENGR 211 and MATH 211. [SE]
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THERMODYNAMICS
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ENGR&224
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Spring |
5.0 Credits
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55 hours of lecture |
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Explores the fundamentals of thermodynamics. Investigates the thermodynamic properties of matter with emphasis on ideal and real gases and introduces the concepts of heat and work. Defines the first and secondlaws of thermodynamics and explores their impact with examples. Uses thermodynamic cycles to apply the concepts of learned and relates the principles to applications. Prerequisite: MATH 211 and PHYS 201. [SE]
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MECHANICS OF MATERIALS
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ENGR&225
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Fall Spring |
5.0 Credits
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55 hours of lecture |
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Concepts of stress and strain for deformable objects. Axial, torsional and bending loading, combined loadings. Column loading and stabilitywith other applied topics. Prerequisite: ENGR 211 or ENGR& 214, and MATH 211 or MATH& 152. [SE]
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