ENGINEERING
EGR 115 - Intro to Technology
2 Class, 3 Lab, 3 credits
Local Co-requisite: EGR-115A
This course introduces the basic skills and career fields for technicians. Topics include career options, technical vocabulary, dimensional analysis, measurement systems, engineering graphics, calculator applications, professional ethics, safety practices, and other related topics. Upon completion, students should be able to demonstrate an understanding of the basic technologies, prepare drawings and sketches, and perform computations using a scientific calculator. (Offered Spring semester)
EGR 115A - Intro to Tech Lab
Local Co-requisite: EGR-115
0 Class, 3 Lab, 1 credit
This course provides a laboratory setting for EGR 115. Emphasis is placed on developing skills in dimensional analysis, measurement systems, engineering graphics, and calculator applications. Upon completion, students should be able to apply the laboratory experiences to the concepts presented in EGR 115. (Offered Spring semester)
EGR 125 - Appl Software for Tech
2 Class, 2 Lab, 2 credits
This course introduces personal computer software and teaches students how to customize the software for technical applications. Emphasis is placed on the use of common office applications software programs such as spreadsheets, word processing, graphics, and internet access. Upon completion, students should be able to demonstrate competency in using applications software to solve technical problems and communicate the results in text and graphical formats. (Offered Fall and Spring semesters, Online only)
EGR 130 - Engineering Cost Control
2 Class, 2 Lab, 3 credits
Prerequisites: MAT 121 or MAT 171
This course covers the management of projects and systems through the control of costs. Topics include economic analysis of alternatives within budget constraints and utilization of the time value of money approach. Upon completion, students should be able to make choices that optimize profits on both short-term and long-term decisions. (Offered Spring semester)
EGR 150 - Intro to Engineering
1 Class, 2 Lab, 2 credits
Recommended Co-requisites: MAT 171
This course is an overview of the engineering profession. Topics include goal setting and career assessment, ethics, public safety, the engineering method and design process, written and oral communication, interpersonal skills and team building, and computer applications. Upon completion, students should be able to understand the engineering process, the engineering profession, and utilize college resources to meet their educational goals. This course has been approved to satisfy the Comprehensive Articulation Agreement as a pre-major and/or elective course requirement. (Offered Fall and Spring semesters)
EGR 210 - Intro to Elec/Comp Eng Lab
1 Class, 3 Lab, 2 credits
Prerequisites: MAT 271 and PHY 251
This course provides an overview of electrical and computer engineering, through a lecture and laboratory setting. Topics include fundamental concepts, electronic circuits, digital circuits, communication systems, and signal processing. Upon completion, students should be able to discuss the wide range of fields available to the electrical or computer engineer. This course has been approved to satisfy the Comprehensive Articulation Agreement as a pre-major and/or elective course requirement. (Demand dependent)
EGR 212 - Logic Systems Design I
3 Class, 0 Lab, 3 credits
Prerequisites: MAT 271 and PHY 251
This course provides an introduction to digital circuits and analysis. Topics include Boolean Algebra; mixed logic; design of combination circuits; introduction to sequential circuits; and MSI building blocks. This course has been approved to satisfy the Comprehensive Articulation Agreement as a pre-major and/or elective course requirement. (Demand dependent)
EGR 214 - Num Methods for Engineers
3 Class, 0 Lab, 3 credits
Prerequisites: MAT 272
This course introduces contemporary methods and tools for numerical analysis in engineering. Topics include numerical methods in differentiation, integration, root-finding, linear and non-linear regressions. Upon completion, students should be able to demonstrate: basic structured programming concepts involving decision making, loops, functions, and parameter passing: common numerical methods used in engineering analysis; estimation of the amount of error inherent in different numerical methods; assessment of numerical efficiency; method assessment of numerical efficiency; and convergence properties of different numerical methods. This course has been approved to satisfy the Comprehensive Articulation Agreement as a pre-major and/or elective course requirement. (Demand dependent)
EGR 215 - Network Theory I
3 Class, 0 Lab, 3 credits
Prerequisites: MAT 272 and PHY 251
Co-requisites: PHY 252 and MAT 273
This course provides an introduction to Kirchoff's laws and terminal equations, circuit analysis techniques and network theorems, transient and nature response, and state variable analysis. Topics include Kirchoff's laws, Ohm's Law, circuit analysis techniques, Network theorems, singularity functions, transient and natural responses, power, and state variable analysis. This course has been approved to satisfy the Comprehensive Articulation Agreement as a pre-major and/or elective course requirement. (Demand dependent)
EGR 216 - Logic and Network Lab
0 Class, 3 Lab, 1 credit
Prerequisites: MAT 272 and PHY 251
Co-requisites: EGR 215
This course provides laboratory experiments in network measurements and logic design and laboratory equipment and techniques. Topics include network management and applications, experimental logic design and introduction to laboratory equipment and techniques. This course has been approved to satisfy the Comprehensive Articulation Agreement as a pre-major and/or elective course requirement. (Demand dependent)
EGR 220 - Engineering Statics
3 Class, 0 Lab, 3 credits
Prerequisites: PHY 251
Corequisites: MAT 272
This course introduces the concepts of engineering based on forces in equilibrium. Topics include concentrated forces, distributed forces, forces due to friction, and inertia as they apply to machines, structures, and systems. Upon completion, students should be able to solve problems which require the ability to analyze systems of forces in static equilibrium. This course has been approved to satisfy the Comprehensive Articulation Agreement as a pre-major and/or elective course requirement. (Offered Spring semester)
EGR 225 - Engineering Dynamics
3 Class, 0 Lab, 3 credits
Prerequisites: EGR 220
This course provides an introduction to engineering theory of deformable solids and applications. Topics include stress and deformation resulting from axial, torsion. and bending loads; shear and moment diagrams; Mohr's circle of stress; and strain and bucking of columns. Upon completion, students should be able to analyze solids subject to various forces and design systems using a variety of materials. This course has been approved to satisfy the Comprehensive Articulation Agreement as a pre-major and/or elective course requirement. (Demand dependent)
EGR 228 - Intro to Solid Mechanics
3 Class, 0 Lab, 3 credits
Prerequisites: EGR 220
This course provides an introduction to engineering theory of deformable solids and applications. Topics include stress and deformation resulting from axial, torsion, and bending loads; shear and moment diagrams; Mohr's circle of stress; and strain and buckling of columns. Upon completion, students should be able to analyze solids subject to various forces and design systems using a variety of materials. This course has been approved to satisfy the Comprehensive Articulation Agreement as a pre-major and/or elective course requirement. (Demand dependent)
EGR 250 - Statics/Strength of Materials
4 Class, 3 Lab, 5 credits
Prerequisites: MAT 121 or MAT 171
This course includes vector analysis, equilibrium of force systems, friction, sectional properties, stress/strain, and deformation. Topics include resultants and components of forces, moments and couples, free-body diagrams, shear and moment diagrams, trusses, frames, beams, columns, connections, and combined stresses. Upon completion, students should be able to analyze simple structures. It is strongly recommended that PHY 131 or PHY 151 be completed prior to taking this course. (Offered Fall semester)