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MET 330: Advanced Dynamics

4.00 Credits

Cleveland State University

Prerequisites: associate-degree-level calculus, statics, and strength of materials courses or MET 300, and MTT 300. Displacement, velocity and acceleration of particles and rigid bodies with combined translation and rotation. Reaction and inertia forces and mass and polar moments of inertia. Analysis by equations of motion, force-acceleration, work-energy, and impulse-momentum. Conservative and non-conservative forces and moments. Free and forced vibrations, natural frequency, and fundamentals of damping and vibration isolation.

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MET 345: Thermodynamics

4.00 Credits

Cleveland State University

Prerequisites: associate-degree-level calculus, dynamics, and fluid power. Corequisites: MTT 300, MET 320. The study of classical thermodynamics approach to system and control volumes, properties and processes of gases and vapors, zeroth, first, and second laws of systems and control volumes. Vapor and gas power systems. Refrigeration and heat pumps systems. Ideal gas mixtures and psychometrics, reacting gases and combustion.

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MET 350: Fluid Mechanics

3.00 Credits

Cleveland State University

Prerequisite: MTT 300. Corequisite: MTT 301. The fundamentals of fluid mechanics, including the properties of fluids, pressure, hydrostatics and dynamics of fluid flow. Laminar and turbulent flow, friction losses, and sizing of pipes. Pump section and application. Selected course topics are included as computer programming projects.

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MET 351: Thermal Fluids Lab

2.00 Credits

Cleveland State University

Prerequisite: MET 345. Corequisite: MET 350. Laboratory experiments in selected topics in fluids flow, heat transfer, and thermodynamics. Introduction to validity of measurements, statistical analysis, error and uncertainty analysis.

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MET 410: Design of Machine Components

3.00 Credits

Cleveland State University

No course description available.

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MET 411: Mechanical Measurements Lab

1.00 Credits

Cleveland State University

Prerequisites: MET 320, MET 330, MTT 301. Design, analysis, and selection of components used in machines, including shafts, gears, clutches, brakes, bearings, fasteners, springs, and bolted and welded frames. Determination of appropriate design stresses and deflections for strength, durability, and function. Selection of materials and processing and manufacturing considerations.

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MET 420: Heat Transfer

3.00 Credits

Cleveland State University

Prerequisites: MET 345, MET 350, MTT 301. The mechanisms of heat transfer, including conduction in one and two dimensions, forced and free convection, internal and external flows, heat exchangers, and introduction to radiation.

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MET 425: Thermal Sciences for Electronic Engineering Technology

4.00 Credits

Cleveland State University

Prerequisites: associate-degree-level physics, MTT 301. Thermodynamics, heat transfer, and fluid flow principles and their applications to electronic equipment and digital devices. Topics include heat generation in printed-circuit boards and power transmission mediums, thermal resistance concepts, junction temperature, cooling and heating loads, air and liquid cooled heat sinks, thermoelectric power generation and refrigeration, dielectric heating, heat pipes and vortex tubes and their applications in electronic cooling. Technical Elective.

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MET 441: Finite Element Analysis

3.00 Credits

Cleveland State University

Prerequisites: MET 320, MET 330, MET 410. This course provides an introduction to the finite element method for analysis of trusses, frames, and various machines. A finite element software package will be used to perform forces, stress, and displacement analysis, which will be compared with rigorous solutions using methods presented in statics, mechanics of materials, and machine design courses. Technical Elective.

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MET 445: Solid Modeling Applications

3.00 Credits

Cleveland State University

Prerequisites: MET 330. Corequisites: MET 410, MET 411. Development and application of solid models of components and assemblies in engineering design and analysis. Use of solid models in problems related to component design, stress analysis, fluid flow, heat transfer, machine dynamics, and assembly interference. Production of engineering drawings, visual representations, and data files for machining and rapid prototyping. Accuracy and validity considerations of solid models.

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