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Course Criteria
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3.00 Credits
This class is an in-depth study of the principles explored in ET235 for students in the Structural Fitter and Welder disciplines. Individual students will demonstrate the practical application of these principles by building separate components of a physical class project. Decisions regarding selection of materials, details of product design and selection of manufacturing processes will be made by each student. Completed components must meet functional requirements, and will be subjected to physical testing. Prerequisite: ET235. Rec. 3, Cr. 1.
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2.00 Credits
An intensive introduction to marine design. Emphasis is placed on the application of the design processes used in the shipbuilding industry. Interactive group and individual instruction focuses on the importance of sound working relationships among the design disciplines. A Design Control Composite project leads to development of individual design-specific production drawings. The course is divided into three (3) modules. Module one (1) consists of several presentations of cross-discipline topics spanning about six (6) weeks. Module two (2) is comprised of approximately 23 weeks of discipline specific topics. Module three (3) is an application exercise where the students do actual work on a class project. Rec. 2 and 2, Cr. 2 and 2.
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3.00 Credits
The goal of this course is to give students the skills required to make sound decisions when developing any design. Emphasis will be on concept development while considering manufacturing processes, cost, material selection, standardization, design evaluation and prototype development. Students will also develop skills and become familiar with types of tradeoffs required in a fast track design environment. Prerequisites: MS203 or MS204, and EG210. Rec. 2, Cr. 2.
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3.00 Credits
Experiments in thermodynamics, heat transfer, and fluid mechanics, standard experimental techniques, data analysis, and report writing. Communications intensive. Prerequisite: Et-211. Lab. 3, Cr. 2.
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3.00 Credits
This course introduces materials used in engineering applications along with guidelines for determining the appropriate materials for a given application. It also introduces fundamental science that determines the properties of materials, such as bonding types and atomic/molecular structures. Mechanical and physical properties of materials will be examined in the lectures and in laboratory exercises. Includes standard experimental techniques, mechanical and computerized data acquisition and analysis, and report writing. Communications intensive. This course supports the marine license program requirements to meet the Standards for Training, Certification and Watchkeeping (STCW). The course may have embedded assessment requirements that must be completed in addition to the class requirements. Prerequisites: Ch-301, Et-230, and Et-452. Rec. 2, Lab. 2, Cr. 3.
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3.00 Credits
Extension of electromagnetic principles to AC and DC circuits, including balanced three-phase AC, and their application to the analysis of DC and AC circuits. Includes meters, transformers, batteries, and three-phase AC. Introduction to practical operation of shipboard and industrial electrical systems. This course supports the marine license program requirements to meet the Standards for Training, Certification and Watchkeeping (STCW). The course may have embedded assessment requirements that must be completed in addition to the class requirements. Prerequisite: Ps-201 or Ps-261. Rec. 3, Lab. 2, Cr. 4.
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3.00 Credits
A study of economic theories and principles as applied to engineering decision making. It includes methods of compound interest, annual worth, and present worth, rate of return, benefit/cost ratio, capital allocation, depreciation, and risk analysis. Other topics will include revenue requirements, price level changes, and minimum attractive rate of return. Rec. 3, Cr. 3.
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3.00 Credits
A practical study of typical engineering software used in industry. Examples include the use of spreadsheet for economic studies, computer aided drafting, power plant controls, moving data from one analysis to another, and special topics chosen by the instructor. Prerequisite: Cs-150. Rec. 2, Lab. 3, Cr. 3.
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3.00 Credits
A course covering high technology innovations in engines, electronics, and hydraulic systems as applied to modern road and rail vehicles, and including computerized vehicle management systems that optimize vehicle performance and handling. Prerequisites: Ps-201, Eg-392, and Et-371 or Es-371. Rec. 3, Cr. 3.
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3.00 Credits
An upper-level course in engineering technology and related topics. Topics to be determined based on student or faculty proposals. Prerequisites to be determined based on course level and content or approval of department chair and instructor. Cr. 1-3.
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