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Course Criteria
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3.00 Credits
The study of forces applied to structures. Includes an introduction to vector mechanics, static equilibrium, two and three-dimensional force systems, distributed forces, and friction. Structures studied include trusses, frames, and beams. Prerequisites: Ms-110 or Ms-150 and Ps-102 or Ps-162. Rec. 3, Cr. 3.
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3.00 Credits
A study of stresses and strains in structures due to tension, compression, shear, torsion, bending, and combined stresses. Stress transformation and introduction to three-dimensional stresses. Applications include beams, columns, and indeterminate structures. Prerequisite: Es-205. Rec. 3, Cr. 3.
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3.00 Credits
An engineering-level extension to Et-201 Fluid Power. Topics include fluid statics and dynamics as applied to ship stability, series and parallel pipe flow, open channel flow, and inviscid flow around solid objects. Application of curve fits and dimensional analysis to experiment design and data reduction. Prerequisites: Et-201, Es-205, Ms-252. Rec. 3, Cr. 3.
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3.00 Credits
Introduction to thermodynamic properties, phases, and processes and the concepts of energy, work, and heat. The First and Second Laws of Thermodynamics are developed. Entropy and availability are developed through Second Law analysis. Computer application and problem solving are emphasized and design and open-ended problems are presented as design experiences. Prerequisites: Ms-110 or Ms-150, Ps-102 or Ps-162, and Cs-150. Rec. 3, Cr. 3.
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3.00 Credits
Engineering applications of the First and Second Laws of Thermodynamics, entropy and availability to the following topics: analysis of power and refrigeration cycles, gas mixtures, psychometrics and flow through nozzles, and blade passages, and combustion processes. Heat transfer principles are introduced. Engineering design and computer applications are emphasized. Prerequisites: Es-251, Ms-120 or Ms-160, and Ps-201 or Ps-261. Rec. 3, Cr. 3.
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3.00 Credits
An expanded version of Et-371, for students planning to take the Engineering-in-Training (EIT) examination. Includes additional topics in AC and DC circuit theory, transient analysis in DC circuits, Norton's and Thevenin's Theorems, loop current and node voltage analysis, and complex notation analysis of AC circuits. 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: Ps-201 or Ps-261, Ms-110 or Ms-150. Rec. 3, Lab. 2, Cr. 4.
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3.00 Credits
A second course in engineering design, integrating "engineering science" to design the optimum embodiment of a selected concept. Topics and techniques discussed include sensitivity analysis, engineering project management, cost estimation and reduction, design for assembly, and design for reliability/maintainability. This communications-intensive course includes computer modeling and analysis and a significant design project. Prerequisites: Es-180, Cs-150, Ms-252; or consent of instructor. (Students are expected to have completed or to be taking Et-230/Es-235 and Es-245 concurrently.) Rec. 3, Cr. 3.
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3.00 Credits
An upper-level course in engineering design or 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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3.00 Credits
A vector-based study of linear and angular kinematics, linear and angular kinetics, energy methods, impulse, momentum and kinetics of simple three dimensional motions. Prerequisites: Es-205 and Ms-260. Rec. 3, Cr. 3.
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3.00 Credits
An upper-level course in engineering mechanics. Topics include a detailed study in the kinematics and kinetics of a rigid body, vibration theory, Lagrangian mechanics, and the Hamiltonian function. Application of these techniques to the solution of practical engineering problems will be emphasized. Prerequisite: Es-420. Rec. 3, Cr. 3.
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