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Course Criteria
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3.00 Credits
Application of the basic concepts of engineering statics, strength of materials, and dynamics to the design of machine elements. Analytical and empirical techniques are presented for the design and analysis of a variety of mechanical components including fasteners, springs, bearings, gears, shafts and couplings. Lubrication principles are introduced through bearing analysis. Prerequisites: Es-235 and Es-420 or permission of the instructor. Rec. 3, Cr. 3.
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3.00 Credits
A variety of numerical algorithms and techniques which may be employed in the solution of engineering problems. Topics may include solution of nonlinear equations, zeroes of polynomials, interpolation and approximation, curve fitting, numerical differentiation and integration, matrix manipulations, linear simultaneous equations, solution of first and higher order (and systems of) differential equations, finite difference approximation for derivatives, and mathematical modeling. Prerequisites: Cs-150, Ms-252; Es-380 (concurrent). Rec. 3, Cr. 3.
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3.00 Credits
This course investigates the relationship between design, manufacture, and the likelihood of failure at the component and system levels. Topics include a study of reliability mathematics, reliability testing, risk analysis, human factors, design of experiments, and reliability management. Application of these techniques to the solution of marine systems problems will be emphasized. Prerequisites: Es-380 and Ms-260. Rec. 3, Cr. 3.
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3.00 Credits
An introduction to the structure and structural characteristics of materials used in engineering, including metallic alloys, ceramics, polymers, and composites. Methods of processing are emphasized. Prerequisites: Et-230 or Es-235 and Ch-301 or Ch-352. Rec. 3, Cr. 3.
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3.00 Credits
A laboratory experience through which students learn the basics of engineering testing. This communications-intensive course includes experiment design, instrument selection and calibration, data collection, analysis of data, and report writing and presentation. Prerequisites: Es-235, Es-245, Es-251. Lab. 3, Cr. 2.
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3.00 Credits
An upper-level course in engineering programming. This course introduces engineering students to solving complex engineering problems using computational tools. General computational and numerical techniques are explored using Matlab computational software. Other programming tools will also be utilized when appropriate. Implementation of numerical integration, numerical control, data acquisition, filtering and FFT's, FEA, CFD and CNC applications may comprise topics for this course. Prerequisite: Es-490. Rec. 3, Cr. 3.
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3.00 Credits
Preparation for the major design project required in the final semester of all Marine Systems Engineering students. Each student or student team will work with an engineering faculty member to select a problem, collect reference materials, develop design objectives and specifications, select a design approach and methodology, and devise a detailed project plan. This course is communications intensive. (In special cases, course requirements may be satisfied through independent study.) Prerequisite: Marine Systems Engineering final year status or permission of the major Coordinator. Rec. 1, Cr. 1.
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3.00 Credits
A communications-intensive project course in which the student, individually or as part of a team, applies his/her knowledge of engineering operations, engineering science, engineering design, and technical communications to analyze and create, communicate, and defend design solutions to an open-ended problem of practical interest approved by an engineering faculty member. Prerequisite: Es-598. Rec. 1, Cr. 3.
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2.00 Credits
Study and practice in lettering, use of tools, methods of geometric construction, multiview projection, orthographic representation, and delineation applied to marine technology and engineering. 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. Rec. 2, Lab 2, Cr. 3.
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2.00 Credits
Introduction to the nature of electronics, semi-conductor fundamentals, diodes,?zener diodes, and their use in power supply and regulator circuits.?Cr. 2.
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