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Course Criteria
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2.00 Credits
LAB HOURS: 2, CREDIT: 1 Prerequisites: None Corequisite: ET 230 Investigates the physical characteristics of materials through testing, data acquisition, and calculations. Tests conducted include tensile, fatigue, creep, impact energy, and hardenability. Students learn how the properties described in ET 230 are derived.
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3.00 Credits
CLASS HOURS: 3, CREDIT: 3 Prerequisites: MTH 200, PHY 100, PHY 100L Force systems and the conditions of equilibrium for particles and rigid-bodies are studied in two and three dimensions. The principles of equilibrium, moments, and dry friction are applied to engineering system components and structures.
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3.00 Credits
CLASS HOURS: 3, CREDIT: 3 Prerequisite: MTH 201, PHY 105 Corequisite: ET 250L Principles and applications of DC and AC circuit analysis, node and mesh equations, Thevenin equivalent circuits, maximum power transfer, first order transients, simple filters, phasors, power, power factor, and relative power in single-phase systems.
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2.00 Credits
LAB HOURS: 2, CREDIT: 1 Corequisite: ET 250 Application of circuit elements and principles from ET 250 in laboratory measurements and analysis.
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3.00 Credits
CLASS HOURS: 3, CREDIT: 3 Prerequisite: ET 232 Motion and force analyses for particles and rigid-bodies are studied in two and three dimensions. The principles of dependent and relative motion, work and energy, conservation of energy, and impulse and momentum are applied to engineering systems components.
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3.00 Credits
CLASS HOURS: 3, CREDIT: 3 Prerequisites: ET 230, MTH 201 Study of basic concepts in strength of materials: normal, shear, bending, and bearing stress; stress-strain relation; and design properties of materials. Practical application of structure calculations for sizing bolts, rivets, shafts, beams, columns, and pressure vessels.
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3.00 Credits
CLASS HOURS: 3, CREDIT: 3 Prerequisites: MTH 200, PHY 100, PHY 100L Corequisite: ET 340L The application of principles of incompressible fluid flow. Topics include forces in static fluids and fluids in motion, applications of Bernoulli's equation, pressure losses in pipe systems, open channel flows, pump selection, and air flow in ducts.
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2.00 Credits
LAB HOURS: 2, CREDIT: 1 Corequisite: ET 340
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2.00 Credits
CLASS HOURS: 2, CREDIT: 2 Prerequisite: ET 344 Corequisite: ET 342L Introduction to basic refrigeration and air conditioning principles and equipment. Included are the theory and application of direct and indirect refrigeration cycles commonly found on merchant ships and ashore including main cargo freezers, air conditional systems, chill water systems, absorption systems, refrigerated vans, and ice machines.
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2.00 Credits
LAB HOURS: 2, CREDIT: 1 Corequisite: ET 342
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