ME 340
ME 340 - Dynamics of Mechanical Systems
Fall 2024
Title | Rubric | Section | CRN | Type | Hours | Times | Days | Location | Instructor |
---|---|---|---|---|---|---|---|---|---|
Dynamics of Mechanical Systems | ME340 | AB1 | 36624 | LAB | 0 | 1200 - 1350 | M | 3073 Electrical & Computer Eng Bldg | Jaesang Park |
Dynamics of Mechanical Systems | ME340 | AB2 | 36657 | LAB | 0 | 1500 - 1650 | M | 3073 Electrical & Computer Eng Bldg | Karthik Manoj |
Dynamics of Mechanical Systems | ME340 | AB3 | 45631 | LAB | 0 | 1700 - 1850 | M | 3073 Electrical & Computer Eng Bldg | Karthik Manoj |
Dynamics of Mechanical Systems | ME340 | AB4 | 36627 | LAB | 0 | 0800 - 0950 | T | 3073 Electrical & Computer Eng Bldg | Jialin Li |
Dynamics of Mechanical Systems | ME340 | AB5 | 36631 | LAB | 0 | 1000 - 1150 | T | 3073 Electrical & Computer Eng Bldg | Golam Sobahani |
Dynamics of Mechanical Systems | ME340 | AB6 | 63823 | LAB | 0 | 1200 - 1350 | T | 3073 Electrical & Computer Eng Bldg | Jaesang Park |
Dynamics of Mechanical Systems | ME340 | AB7 | 36637 | LAB | 0 | 1500 - 1650 | T | 3073 Electrical & Computer Eng Bldg | Matin Mohebalhojeh |
Dynamics of Mechanical Systems | ME340 | AB8 | 77603 | LAB | 0 | 1200 - 1350 | W | 3073 Electrical & Computer Eng Bldg | Kuan-Yu Tseng |
Dynamics of Mechanical Systems | ME340 | AB9 | 36645 | LAB | 0 | 1500 - 1650 | W | 3073 Electrical & Computer Eng Bldg | Kuan-Yu Tseng |
Dynamics of Mechanical Systems | ME340 | ABA | 77604 | LAB | 0 | 1700 - 1850 | W | 3073 Electrical & Computer Eng Bldg | Karthik Manoj |
Dynamics of Mechanical Systems | ME340 | ABB | 36653 | LAB | 0 | 0800 - 0950 | R | 3073 Electrical & Computer Eng Bldg | Jialin Li |
Dynamics of Mechanical Systems | ME340 | ABC | 36655 | LAB | 0 | 1500 - 1650 | R | 3073 Electrical & Computer Eng Bldg | Hyun Gyu Lee |
Dynamics of Mechanical Systems | ME340 | ABD | 36661 | LAB | 0 | 1200 - 1350 | R | 3073 Electrical & Computer Eng Bldg | Hyun Gyu Lee |
Dynamics of Mechanical Systems | ME340 | ABE | 63824 | LAB | 0 | 1000 - 1150 | R | 3073 Electrical & Computer Eng Bldg | Golam Sobahani |
Dynamics of Mechanical Systems | ME340 | ABF | 36640 | LAB | 0 | 0800 - 0950 | F | 3073 Electrical & Computer Eng Bldg | Golam Sobahani |
Dynamics of Mechanical Systems | ME340 | ABG | 78569 | LAB | 0 | 1700 - 1850 | T | 3073 Electrical & Computer Eng Bldg | Matin Mohebalhojeh |
Dynamics of Mechanical Systems | ME340 | ABH | 79864 | LAB | 0 | 1700 - 1850 | R | 3073 Electrical & Computer Eng Bldg | Hyun Gyu Lee |
Dynamics of Mechanical Systems | ME340 | AL1 | 36615 | LEC | 3.5 | 1000 - 1050 | M W F | 4025 Campus Instructional Facility | Matthew West |
Dynamics of Mechanical Systems | ME340 | AL3 | 67210 | LEC | 3.5 | 1100 - 1150 | M W F | 1092 Lincoln Hall | Tom Golecki |
Dynamics of Mechanical Systems | ME340 | ZJ1 | 36620 | LEC | 3.5 | 1000 - 1050 | M W F | 4025 Campus Instructional Facility | Matthew West |
Dynamics of Mechanical Systems | ME340 | ZJ3 | 75522 | LEC | 3.5 | 1100 - 1150 | M W F | 1092 Lincoln Hall | Tom Golecki |
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Official Description
Detailed Course Description
Dynamic modeling of mechanical components and systems; time domain and frequency domain analysis of linear time invariant systems; multi-degree of freedom systems; linearization of nonlinear systems. Prerequisite: TAM 212, MATH 285 and concurrent registration in ECE 205/206, and MATH 415. 3.5 undergraduate hours. Students may not receive credit for this course and any of the following: GE 320 and AAE 353.
TOPICS:
1. Laplace transformation: properties, inverse transformation, solutions of differential equations by Laplace transform, transfer functions - poles and zeroes.
2. Modeling of dynamic systems: principles of conservation - mass, energy, fluid flow, heat transfer, mechanical/electromechanical systems, state(phase) space representation.
3. Dynamic system classification, linearization of nonlinear systems, dynamic simulation.
4. Time domain analysis of linear time invariant systems: first and second order systems, time constant, damping ratio and natural frequency, impulse response and convolution integral.
5. Frequency domain analysis: frequency response, application to vibration isolation, base excitation, measurement systems, Fourier series analysis.
6. Multi-degree-of-freedom systems: natural frequencies and normal modes, applications to beat generation and vibration absorbers.
LABORATORY PROJECTS:
1. Mathematical preliminaries. Complex numbers; partial fractions; eigenvalues and eigenvectors; MATLAB computations and graphing of real- and complex-valued functions.
2. First-order systems. Exponentially decaying signals; free and step responses of linear, time-invariant first-order systems; time constant; system identification; physical experiments with a leaking tank and a hydraulic motor.
3. Block diagrams and simulation. Time- and frequency-domain block diagrams with integrators amplifiers; Laplace transforms and transfer functions; SIMULINK realizations; numerical experiments with a mechanical suspension, a nonlinear pendulum, and a quarter-car model.
4. Second-order systems. Exponentially decaying harmonic signals; free, step, and unit impulse responses of linear, second-order time-invariant systems; natural frequency and damping ratio; under-, critically-, and over-damped systems; system identification; physical experiments with a single-degree-of-freedom spring-mass-damper system.
5. Mode shapes and resonance. Natural frequencies and modal oscillations; harmonic excitation; steady-state response; physical experiments with a two-degree-of-freedom spring-mass-damper system.
6. Continuous systems. Boundary-value problems for cantilevered and clamped-clamped beams; natural frequencies and modal oscillations; modal decompositions; harmonic excitation and resonance; physical experiments with a cantilevered beam; simulations with a finite-element model.
7. Nonlinear systems. Lagrange’s equations; equilibrium configurations; linearization and stability; simulation and physical experiments with a double pendulum.
ME: Required.
EM: TAM 412 required instead.