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Viewing: MES 403 : MES Capstone Design II

Last approved: Fri, 26 May 2017 08:02:17 GMT

Last edit: Fri, 26 May 2017 08:02:17 GMT

Catalog Pages referencing this course
Change Type
Major
MES (Mechanical Engineering Systems)
403
032472
Dual-Level Course
No
Cross-listed Course
No
MES Capstone Design II
MES Capstone Design II
College of Engineering
College of Engineering (14EH)
Term Offering
Spring Only
Offered Every Year
Fall 2017
Previously taught as Special Topics?
No
 
Course Delivery
Remote Location/Site Based
Havelock, NC
Grading Method
Graded with S/U option
3
16
Contact Hours
(Per Week)
Component TypeContact Hours
Lecture3
Course Attribute(s)
Capstone

If your course includes any of the following competencies, check all that apply.
University Competencies

Course Is Repeatable for Credit
No
 
 
William Fortney
Eastern NC Regional Director of Engr/ Teaching Assistant Professor in MAE

Open when course_delivery = campus OR course_delivery = blended OR course_delivery = flip
Open when course_delivery = distance OR course_delivery = online OR course_delivery = remote
Delivery FormatPer SemesterPer SectionMultiple Sections?Comments
LEC1515Nona
Prerequisite: MES 401
Is the course required or an elective for a Curriculum?
Yes
SIS Program CodeProgram TitleRequired or Elective?
14EGRBS-14EGRMESEngineering (BS): Mechanical Engineering Systems (Havelock)Required
This course sequence is the second in the senior capstone engineering design experience. This capstone experience is the culmination of the MES student's undergraduate education experience. Working in teams, students perform engineering design to solve a real-world engineering problem supplied by an industry partner. In MES 401 & MES 403, students follow a formal systems engineering approach to manage their design project through the completion of a System Requirements Review, a Conceptual Design Review, a Preliminary Design Review, a Detailed Design Review, and a Critical Design Review. Students develop written and verbal communication skills through reports and presentations. Students also gain insight into engineering design practices through guest lectures from local engineers. Course requires travel to sponsor and students are required to provide or arrange for their own transportation.

Course replaces MES 402. Course content is changing based on overall curriculum changes and credit hours are being reduced to reflect change. Machining content is being removed since it is in MES 200 and MES 400.


No

Is this a GEP Course?
No
GEP Categories

Humanities Open when gep_category = HUM
Each course in the Humanities category of the General Education Program will provide instruction and guidance that help students to:
 
 

 
 

 
 

 
 

 
 

 
 

Mathematical Sciences Open when gep_category = MATH
Each course in the Mathematial Sciences category of the General Education Program will provide instruction and guidance that help students to:
 
 

 
 

 
 

 
 

Natural Sciences Open when gep_category = NATSCI
Each course in the Natural Sciences category of the General Education Program will provide instruction and guidance that help students to:
 
 

 
 

 
 

 
 

Social Sciences Open when gep_category = SOCSCI
Each course in the Social Sciences category of the General Education Program will provide instruction and guidance that help students to:
 
 

 
 

 
 

 
 

 
 

 
 

Interdisciplinary Perspectives Open when gep_category = INTERDISC
Each course in the Interdisciplinary Perspectives category of the General Education Program will provide instruction and guidance that help students to:
 
 

 
 

 
 

 
 

 
 

 
 

 
 

 
 

Visual & Performing Arts Open when gep_category = VPA
Each course in the Visual and Performing Arts category of the General Education Program will provide instruction and guidance that help students to:
 
 

 
 

 
 

 
 

 
 

 
 

Health and Exercise Studies Open when gep_category = HES
Each course in the Health and Exercise Studies category of the General Education Program will provide instruction and guidance that help students to:
 
 

 
 

 
 

 
 

 
&
 

 
 

 
 

 
 

Global Knowledge Open when gep_category = GLOBAL
Each course in the Global Knowledge category of the General Education Program will provide instruction and guidance that help students to achieve objective #1 plus at least one of objectives 2, 3, and 4:
 
 

 
 

 
Please complete at least 1 of the following student objectives.
 

 
 

 
 

 
 

 
 

 
 

US Diversity Open when gep_category = USDIV
Each course in the US Diversity category of the General Education Program will provide instruction and guidance that help students to achieve at least 2 of the following objectives:
Please complete at least 2 of the following student objectives.
 
 

 
 

 
 

 
 

 
 

 
 

 
 

 
 

Requisites and Scheduling
 
a. If seats are restricted, describe the restrictions being applied.
 

 
b. Is this restriction listed in the course catalog description for the course?
 

 
List all course pre-requisites, co-requisites, and restrictive statements (ex: Jr standing; Chemistry majors only). If none, state none.
 

 
List any discipline specific background or skills that a student is expected to have prior to taking this course. If none, state none. (ex: ability to analyze historical text; prepare a lesson plan)
 

Additional Information
Complete the following 3 questions or attach a syllabus that includes this information. If a 400-level or dual level course, a syllabus is required.
 
Title and author of any required text or publications.
 

 
Major topics to be covered and required readings including laboratory and studio topics.
 

 
List any required field trips, out of class activities, and/or guest speakers.
 

No change. Local MES faculty teach this course.

Student Learning Outcomes

By the end of this course, students should be able to:



  1. Investigate an open-ended “real-world” engineering problem and define goals and objectives for its solution.

  2. Create and maintain an engineering journal.

  3. Demonstrate independent learning skills by devising and investigating feasible ideas.

  4. Demonstrate the ability to work effectively in engineering teams to resolve conflict and meet quantitative engineering objectives established during the project.

  5. Effectively communicate technical information through engineering drawings, written reports, and oral presentations (formal & informal). 

  6. Understand and utilize mechanical engineering design and analysis techniques.

  7. Demonstrate proficiency in creating and understanding design drawings.

  8. Demonstrate proficiency in using state of the art software and other electronic tools.

  9. Create and execute a Systems Engineering Management Plan complete with information such as a project management plan, project budget and life-cycle cost analysis.

  10. Clearly request and exchange quantitative information.

  11. Analyze and optimize a design in relation to life-cycle parameters such as performance, cost, safety, manufacturability, reliability, and maintainability.


Evaluation MethodWeighting/Points for EachDetails
Project15%Student individual performance on instructor assigned project deliverable.
Project20%Team Grade - Preliminary Design Review
Project30%Team Grade - Critical Design Review
presentation15%Team Grade - Final Presentation
Written Assignment20%Team Grade - Final Report

dwparish (Fri, 31 Mar 2017 13:51:02 GMT): Rollback: As per discussion
dwparish (Mon, 10 Apr 2017 14:22:59 GMT): Rollback: Change
Key: 15221