Faculty Association	Fall 2000

ITEM #2

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FA 00-42:

Submitted by the Academic Programs Committee.

COLLEGE OF COMPUTER SCIENCE AND ENGINEERING

Undergraduate

A. Department of Management, Marketing, and Logistics

00-309

APC3

Bachelor or Science in Mechanical Engineering

This represents the Mechanical Engineering (ME) program of study to be offered in the Division of Engineering in COCSE. The ME program is approved and faculty positions (two new faculty qualified in the ME area) and facilities are fully funded by the BOR and the University. The program consists of the following requirements: Prerequisites - 29 hours; Foundation - 11 hours; Core Requirements - 20 hours; Major Requirements - 31 hours; Technical Electives - 6 hours. Minimum upper division hours required for degree (excluding prerequisites): 68. This program of study will begin in the Fall term of 2001.

00-288

APC1

EML 3XXX

Strength of Materials (3 cr.)

Prerequisites: ENG 3XXX (Statics). Corequisites: EML 3XXX (Engineering Materials Lab). The concept of stress and strain is covered and includes topics such as normal stress and strain, shear stress and strain, Hooke's Law, and stress transformation. Deformations in axially loaded members are included with some focus on statically indeterminate members. Torsionally loaded members and flexural members are covered. Shear and bending moment diagrams are emphasized with an introduction to member design. Deflection of beams and columns buckling is introduced. Faculty positions and facilities are fully funded by the BOR and the University.

00-289

APC1

EGN 3XXXC

Modern Computational Methods (3 cr.)

Prerequisites: Acceptance into the ME program of study and knowledge of some form of computer program language. This course covers the applications of modern computer tools and other computational techniques commonly used in engineering practice. These include word processing, spreadsheets, databases, presentation software, computer aided drafting and design (CADD) software, an introduction to finite element modeling, and other standard modeling tools. Faculty positions and facilities are fully funded by the BOR and the University.

00-290

APC1

EML 3XXXL

Engineering Materials Lab (3 cr.)

Prerequisites: EGN 3XXX (Statics). Corequisites: EML 3XXX (Strength of Materials). This course is the companion laboratory to EML 3XXX, Strength of Materials. Faculty positions and facilities are fully funded by the BOR and the University.

00-291

APC1

EGN 4XXX

Senior Capstone Design I (1 cr.)

Prerequisites: Senior standing and consent of Department. This course is the first part of a two-semester design project. Students select partners, select an advisor, define the problem statement of their design project, and develop a plan of implementation and solution. Finally, students submit a preliminary report and give an oral presentation about the projects. Faculty positions and facilities are fully funded by the BOR and the University.

00-292

APC1

EGN 4XXX

Senior Capstone Design II (3 cr.)

Prerequisites: EGN 4XXX (Senior Capstone Design I). This course is the second part of a two-semester design project. Students are to proceed with the design project according to the plan developed in EGN 4XXX, Senior Capstone Design I. Under faculty supervision, the students perform the actual design work for the project previously selected. Finally, students submit a final report and give a formal oral presentation to discuss their final design. Faculty positions and facilities are fully funded by the BOR and the University.

00-293

APC1

EML 3XXX

Fluids I (3 cr.)

Prerequisites: EGN 3XXX (Statics). Corequisites: EGN 3XXX (Dynamics). The purpose of the course is to introduce the fundamental principles of fluid mechanics, including fluid statics, fluid kinematics, and the dynamic equations for fluid mass, momentum and energy conservation. Also, the fundamental principles of fluid mechanics are used to solve basic engineering problems involving incompressible flow. Faculty positions and facilities are fully funded by the BOR and the University..

00-294

APC1

EML 4XXX

Machine and Package Design (3 cr.)

Prerequisites: EGN 3XXX (Dynamics); EML 3XXX (Strength of Materials). The design of machines and equipment packaging to be used in real environments will be presented in this course. Faculty positions and facilities are fully funded by the BOR and the University.

00-295

APC1

EML 4XXX

Controls and Systems Dynamics (3 cr.)

Prerequisites: EGN 3XXX (Dynamics); EML 3100 (Thermodynamics I). This course will cover the study of engineering control processes as applied to mechanical engineering systems, including analog and digital control processes. Faculty positions and facilities are fully funded by the BOR and the University.

00-296

APC1

EML 3XXX

Project Engineering I (3 cr.)

Prerequisites: EGN 3XXX (Dynamics); EML 3XXX (Strength of Materials); EML 3100 (Thermodynamics I); ECO 4XXX (Engineering Economics). This is the first of a two-course sequence in project engineering. This course will concentrate on the design and analysis aspects of project engineering, including the relevant tools. Faculty positions and facilities are fully funded by the BOR and the University.

00-297

APC1

EML 4XXX

Heat Transfer (3 cr.)

Prerequisites: EML 3100 (Thermodynamics I); EML 3XXX (Fluids I). In this course concepts are presented and studied describing the processes of transferring energy in the form of heat from one body (solid, liquid, or gas) to another body. Heat transfer by conduction, convection, and radiation will be covered and analysis tools will be employed in the topics presented. Faculty positions and facilities are fully funded by the BOR and the University.

00-298

APC1

EML 4XXX

Materials Handling I (3 cr.)

Prerequisites: EML 3100 (Thermodynamics I); EML 3XXX (Fluids I). The movement of materials necessary to provide for the efficient manufacturing processes is a complex and often vexing problem. This course will use examples of difficult materials handling processes and provide demonstration of the tools necessary to design systems to handle these materials. Faculty positions and facilities are fully funded by the BOR and the University.

00-299

APC1

EML 4XXX

Project Engineering II (3 cr.)

Prerequisites: EML 3XXX (Project Engineering I). This is the second of a two-course sequence in project engineering. This course will concentrate on the engineering management and control aspects of project engineering, including the use of milestones and the tools used to maintain project control. Faculty positions and facilities are fully funded by the BOR and the University.

00-300

APC1

EML 4XXX

Heat Power Engineering (3 cr.)

Prerequisites: EML 3100 (Thermodynamics I); EML 3XXX (Fluids I); EML 4XXX (Heat Transfer). An application of the principles of Thermodynamics and transport phenomena to the analysis of thermal power systems will be presented in this course. Faculty positions and facilities are fully funded by the BOR and the University.

00-301

APC1

EML 4XXX

Process Controls (3 cr.)

Prerequisites: EML 3XXX (Controls and Systems Dynamics). This course will cover the application of modern control techniques applied to engineering manufacturing processes and machines. Faculty positions and facilities are fully funded by the BOR and the University.

00-302

APC1

EML 4XXX

HVAC Systems (3 cr.)

00-303

APC1

EML 4XXXL

Mechanical Engineering Laboratory (1 cr.)

Prerequisites: Senior Standing in Mechanical Engineering. The application of mechanical engineering concepts and devices will be performed in this laboratory, to include incompressible flows, heat transfer concepts, and thermal systems. Faculty positions and facilities are fully funded by the BOR and the University.

00-304

APC1

EML 3XXX

Thermodynamics II (3 cr.)

Prerequisites: EML 3100 Thermodynamics I. This course is a continuation of EML 3100, Thermodynamics I. In this course, students will develop the concepts of energy generation and the transformation of energy from one state to another. The production of useful energy and the possible flow of energy will be explored. Faculty positions and facilities are fully funded by the BOR and the University.

00-305

APC1

EML 4XXX

Fluids II (3 cr.)

Prerequisites: EML 3XXX (Fluids I). This course is a continuation of the material presented in EML 3XXX, Fluids I. The course takes the next step in describing fluid flows that include near real-world effects. Faculty positions and facilities are fully funded by the BOR and the University.

00-306

APC1

EML 49XX

Directed Individual Study (v. 1-3 cr.)

Prerequisites: Approval by sponsoring professor and director of Engineering. Students will participate in the study of topics agreed to by a sponsoring and supervising professor. This course is variable in credit hours and may be repeated once, with different course content, for a maximum of six credit hours. Faculty positions and facilities are fully funded by the BOR and the University.

00-307

APC1

EML

49XX Special Topics in Engineering (v. 1-3 cr.)

Prerequisites: Senior standing and consent of instructor or department. This course provides topics of special interest in Mechanical Engineering, which may vary each time the course is offered. Course content may be engineering science, engineering design, or a combination of both. The special interest topic, when offered, will be stated in the schedule booklet. The course is variable in credit hours and may be repeated once for a maximum of six credit hours. Faculty positions and facilities are fully funded by the BOR and the University.

00-308

APC1

EML 4949

Co-op Work Experience (1 cr.)

Copyright © 2001 University of North Florida.
All Rights Reserved.
Questions, Comments, Suggestions
Modified: June 12, 2001