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College of Engineering & Technology  Alexandria

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Simulation and Modeling of Mechanical systems

  • Mechanical Engineering |

Description

Introduction to system concepts. Complex analysis, differential equations and Laplace transform. System model representation. Modeling of lumped mechanical systems. Electrical, Electronic and Electromechanical systems. Fluid and thermal systems. System response. High order Systems in closed form. State variables. Dynamic system simulation for MATLAB, SIMULINK, (Modeling, Simulation and Implementation).rnrn

Program

M.Sc. in Mechanical Engineering

Objectives

  • Gain knowledge about model trends to combine modeling, theoretical analysis, and computer simulation. The present course service as a valuable source of information on mathematical modeling and analysis of dynamic systems, combined by selected computer simulation. The course assists the student in acquiring a solid background in the principles and techniques of modeling and analysis.

Textbook

Data will be available soon!

Course Content

content serial Description
1Introduction to system concepts.
2Complex analysis, differential equations and Laplace transform.
3Solution of PDEs using the finite element method.
4System model representation.
5System model representation.
6Modeling of lumped mechanical systems.
7Modeling of lumped mechanical systems. / 7th week evaluation.
8Electrical, electronic and electro mechanical systems.
9Electrical, electronic and electro mechanical systems.
10Fluid and thermal systems.
11System response.
12System response. / 12th week evaluation
13High order systems in closed form.
14State variable.
15Dynamic system simulation for MATLAB, SIMULINK, (modeling, simulation and implementation).
16Final exam.
1Introduction to system concepts.
2Complex analysis, differential equations and Laplace transform.
3Solution of PDEs using the finite element method.
4System model representation.
5System model representation.
6Modeling of lumped mechanical systems.
7Modeling of lumped mechanical systems. / 7th week evaluation.
8Electrical, electronic and electro mechanical systems.
9Electrical, electronic and electro mechanical systems.
10Fluid and thermal systems.
11System response.
12System response. / 12th week evaluation
13High order systems in closed form.
14State variable.
15Dynamic system simulation for MATLAB, SIMULINK, (modeling, simulation and implementation).
16Final exam.

Markets and Career

  • Generation, transmission, distribution and utilization of electrical power for public and private sectors to secure both continuous and emergency demands.
  • Electrical power feeding for civil and military marine and aviation utilities.
  • Electrical works in construction engineering.
Courses
  • Degree Master
  • Code: ME 754
  • Credit hrs: 3
  • Prequisites:
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