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Course Criteria
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1.00 Credits
An introductory course that allows new engineering students to explore the disciplines of civil engineering, electrical engineering, and mechanical engineering through hands-on design projects. The projects and course assignments help students to understand the differences between the disciplines and to begin their development of professional and technical skills needed to succeed as engineering students and for future engineering practice. (Fall, Spring) [Graded (Standard Letter)] Prerequisite(s): MATH 1010 or MATH 1050 or MATH 1210 - Prerequisite Min. Grade: D- Prerequisite Can Be Concurrent? Yes (MATH 1050 or MATH 1210) Registration Restriction(s): None
Prerequisite:
MATH 1010 O MATH 1050 O MATH 1210
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3.00 Credits
Course includes topics such as forces, moments, couples, and resultants; static equilibrium and statically equivalent force systems, center of gravity and center of pressure; free body method of analysis; friction; internal forces in members, concept of stress and strain; Hooke?s Law, application to problems in tension/compression, shear, torsion, and bending. This course is intended for students in Construction Management and Engineering Technology; it does not satisfy degree requirements for majors in Engineering. (Fall) [Graded (Standard Letter)] Prerequisite(s): MATH 1050 and MATH 1060 - Prerequisite Min. Grade: D- Registration Restriction(s): Construction Management or Engineering Technology majors only
Prerequisite:
MATH 1050 A MATH 1060
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3.00 Credits
Statics of particles and rigid bodies, free body diagrams, forces and moments of forces, equilibrium of rigid bodies, distributed forces, centroids, and moments of inertia. (Fall, Spring, Summer) [Graded (Standard Letter)] Prerequisite(s): MATH 1210 - Prerequisite Min. Grade: D- Registration Restriction(s): None
Prerequisite:
MATH 1210
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3.00 Credits
Mechanical properties and behavior of materials under stress. Analysis of stresses in beams and shafts. Plane stress and strain, principal stresses. Axial, torsional, and flexural loading. Mohr?s circle. (Fall, Spring, Summer) [Graded (Standard Letter)] Co-requisite(s): ENGR 2145 Prerequisite(s): ENGR 2010 and MATH 1220 - Prerequisite Min. Grade: D- Registration Restriction(s): None
Prerequisite:
ENGR 2010 A MATH 1220
Corequisite:
ENGR 2145
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1.00 Credits
Lab course that accompanies ENGR 2140. Experimental determination of the modulus of elasticity, Poisson?s ratio, stress concentrations, principal strains and stresses, the relationship between vertical shear force and bending moment distribution in a beam, and the critical buckling force. (Fall, Spring, Summer) [Graded (Standard Letter)] Co-requisite(s): ENGR 2140 Prerequisite(s): ENGL 2010 - Prerequisite Min. Grade: D- Registration Restriction(s): None
Prerequisite:
ENGL 2010
Corequisite:
ENGR 2140
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3.00 Credits
An introduction to computer programming. Topics to be covered include procedural programming in Matlab/Simulink, user interfaces, program syntax and semantics, input/output operations, applications, documentation, and the management of complex programming projects. Problem-solving, case studies, and applications will be emphasized. (Fall, Spring, Summer) [Graded (Standard Letter)] Prerequisite(s): MATH 1210 - Prerequisite Min. Grade: D- Registration Restriction(s): None
Prerequisite:
MATH 1210
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1.00 Credits
This lab accompanies ME 3100. (As Needed) [Graded (Standard Letter)] Co-requisite(s): ME 3100 Registration Restriction(s): None
Corequisite:
ENGR 3010
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3.00 Credits
An introduction to technical project management. The course prepares students with basic project-management skills applicable to any sized project. Topics to be covered include teamwork, the engineering design process, planning, engineering economics, systems engineering methods and tools, risk management and mitigation, testing, configuration control and documentation, and technical presentations and documentation. The course focuses on applying the concepts and methods of effective project management in a team environment to prepare students for the senior capstone sequence. (Spring) [Graded (Standard Letter)] Prerequisite(s): ENGR 1010 or ENGR 2145 - Prerequisite Min. Grade: D- Registration Restriction(s): Junior or Senior standing required
Prerequisite:
ENGR 1010 O ENGR 2145
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3.00 Credits
Coursework emphasizes creative and critical thinking, planning, design, execution and statistical evaluation of experiments, multidisciplinary team work, and project management. Students will use engineering and project-management principles and concepts learned to-date to propose a project, develop requirements and constraints, complete initial design, and present initial results to a panel of professional reviewers. Prepares students to complete the project in ENGR 4085. (Fall) [Graded (Standard Letter)] Prerequisite(s): ENGR 3030 - Prerequisite Min. Grade: D- Registration Restriction(s): None
Prerequisite:
ENGR 3030
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3.00 Credits
This is a continuation of ENGR 4025. Coursework emphasizes creative and critical thinking, planning, design, execution and statistical evaluation of experiments, multidisciplinary team work, and project management. Students will use engineering principles and concepts learned to-date to propose, design, complete, and formally present a comprehensive project to a panel of professional reviewers. (Spring) [Graded (Standard Letter)] Prerequisite(s): ENGR 4025 - Prerequisite Min. Grade: D- Registration Restriction(s): None
Prerequisite:
ENGR 4025
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