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Course Criteria
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0.00 Credits
Recitation session for Introduction to Mechanical Engineering.
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0.00 Credits
This course is the study session associated with AME 20241 Solid Mechanics.
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3.00 Credits
"MEEN 30040 Measurement & Instrumentation at UCD; Introduction to the fundamental principles associated with measurement and instrumentation. The course will examine; general instrument characteristics, calibration, measurement uncertainty, error specification, different measurement instrumentation types, data acquisition, data processing, data analysis and design of experiments. Includes laboratory sessions. On successful completion of this subject the student will be able to: 1. Appreciate the role and importance of measurement in engineering applications. 2. Distinguish between static and dynamic characteristics of instruments. 3. Calibrate an engineering instrument and specify its bias and precision uncertainties. 4. Combine individual instrument uncertainties in multi-instrumented experiments. 5. Explain the engineering principles that underpin specific measurement instrumentation. 6. Apply data acquisition concepts thereby automating the process of measurement. Hrs/Semester Lectures 30 Practical 10 Specified Learning Activities 10 Autonomous Student Learning 60 Total Workload 110 % of Final Grade and Timing Assignment: Home Assignment 10 End of Semester Submission Class Test: Mid-term class test 10 Week 7 Examination: Module examination 60 End of Semester Exam (2 hour) Lab Report: Laboratory Work and Report 20 Varies over the Semester"
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2.00 - 3.00 Credits
Introduction to systems of forces and couples, vector mechanics. Equilibrium of rigid bodies. Internal forces and moments, trusses and beams, distributed loads, and properties of areas. Friction and virtual work. Kinematics and kinetics of particle motion. Systems of particles. Fall.
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3.00 Credits
Taught as "VO 844433 & UE 844434 - Mechanics 2" Mastery of the basic principles and connections of hydrostatics and dynamics. Topics: Hydrostatics, Work, Loads and Potential energy of internal and external forces, Kinematics, principles of virtual work, basic laws of dynamics, Impulse.
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3.00 Credits
Taught in Perth, Australia.
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3.00 Credits
First of a two-course sequence that introduces methods of differential-equation solution together with common engineering applications in vibration analysis and controls. Includes second-order, linear differential equations, feedback control, single-degree of freedom vibrations, numerical solutions to systems of ordinary differential equations, and partial differential equations. Fall.
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3.00 Credits
Systems of nth-order differential equations, multiple-degree of feedom vibrations, linear feedback, s-plane controls analysis, and frequency response analysis. Spring.
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3.00 Credits
A basic course in fluid mechanics. Topics include: mathematics of fluids, Euler N. S. Bernoulli's equation, control volumes, differential analysis, dimensional analysis and dynamic similarity, aerodynamics, boundary layers, and turbulence. Fall.
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3.00 Credits
An intermediate course of the study of the dynamics and thermodynamics of compressible flow for both internal and external geometries, including boundary layer effects. Applications of compressible flow principles to propulsive nozzles, flight simulation facilities, and supersonic airfoil problems. Spring.
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