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College of Engineering & Technology  Alexandria

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Fluid Mechanics II Fluid Mechanics II

  • Mechanical EngineeringMechanical Engineering |

Description

Differential analysis of fluid flow ? Kinematics of fluid flow ? Linera motion, angular motion and deformation ? Conservation of mass and stream ? Velocity potential and irrotational flows ? General equations of motion ( Navier-Stokes equations) ? Euler?s equations of motion ? Basic two-dimensional potential flows ? Superposition of plane potential flows ? Introduction to compressible fluid flow - Mach Number and speed of sound ? Isentropic and Non-isentropic flow of an ideal gas ? Normal shock waves.

Program

Bachelor degree in Mechanical Engineering (Automotive Engineering)

Objectives

  • To enable the student to have a systematic and easily understood account of the basic principles of fluid Mechanics. rnTo give a lucid and concise exposition of flow patterns, fluid forces and resistance to motion and applications of fluid flow theories to engineering problems. rn

Textbook

Data will be available soon!

Course Content

content serial Description
1Week Number 1: Introduction to Differential Analysis of Fluid Flow
2Week Number 2: Kinematics of fluids flow
3Week Number 3: Kinematics of fluids flow (Cont.)
4Week Number 4: Linear Motion, Angular Motion and Deformation
5Week Number 5: Conservation of Mass and Stream Function
6Week Number 6: Velocity Potential and Irrotational Flow Fluids
7Week Number 7: Velocity Potential and Irrotational Flow Fluids - Quiz
8Week Number 8: Basic Two-Dimensional Plane Potential Flow Fields
9Week Number 9: Dynamics of Fluid Flow
10Week Number 10: General Equation of Motion (Navier Stockes Equations)
11Week Number 11: Euler?s Equation of Motion
12Week Number 12: The Complex Potential for Irrotational Flows ? Quiz
13Week Number 13: Fluid Forces and Blasius Theorem
14Week Number 14: Introduction to Compressible Fluid Flow
15Week Number 15 Momentum and Airfoil Bladings
16Week Number 16: Final Examination
1Week Number 1: Introduction to Differential Analysis of Fluid Flow
2Week Number 2: Kinematics of fluids flow
3Week Number 3: Kinematics of fluids flow (Cont.)
4Week Number 4: Linear Motion, Angular Motion and Deformation
5Week Number 5: Conservation of Mass and Stream Function
6Week Number 6: Velocity Potential and Irrotational Flow Fluids
7Week Number 7: Velocity Potential and Irrotational Flow Fluids - Quiz
8Week Number 8: Basic Two-Dimensional Plane Potential Flow Fields
9Week Number 9: Dynamics of Fluid Flow
10Week Number 10: General Equation of Motion (Navier Stockes Equations)
11Week Number 11: Euler?s Equation of Motion
12Week Number 12: The Complex Potential for Irrotational Flows ? Quiz
13Week Number 13: Fluid Forces and Blasius Theorem
14Week Number 14: Introduction to Compressible Fluid Flow
15Week Number 15 Momentum and Airfoil Bladings
16Week Number 16: Final Examination
1Week Number 1: Introduction to Differential Analysis of Fluid Flow
2Week Number 2: Kinematics of fluids flow
3Week Number 3: Kinematics of fluids flow (Cont.)
4Week Number 4: Linear Motion, Angular Motion and Deformation
5Week Number 5: Conservation of Mass and Stream Function
6Week Number 6: Velocity Potential and Irrotational Flow Fluids
7Week Number 7: Velocity Potential and Irrotational Flow Fluids - Quiz
8Week Number 8: Basic Two-Dimensional Plane Potential Flow Fields
9Week Number 9: Dynamics of Fluid Flow
10Week Number 10: General Equation of Motion (Navier Stockes Equations)
11Week Number 11: Euler?s Equation of Motion
12Week Number 12: The Complex Potential for Irrotational Flows ? Quiz
13Week Number 13: Fluid Forces and Blasius Theorem
14Week Number 14: Introduction to Compressible Fluid Flow
15Week Number 15 Momentum and Airfoil Bladings
16Week Number 16: Final Examination
1Week Number 1: Introduction to Differential Analysis of Fluid Flow
2Week Number 2: Kinematics of fluids flow
3Week Number 3: Kinematics of fluids flow (Cont.)
4Week Number 4: Linear Motion, Angular Motion and Deformation
5Week Number 5: Conservation of Mass and Stream Function
6Week Number 6: Velocity Potential and Irrotational Flow Fluids
7Week Number 7: Velocity Potential and Irrotational Flow Fluids - Quiz
8Week Number 8: Basic Two-Dimensional Plane Potential Flow Fields
9Week Number 9: Dynamics of Fluid Flow
10Week Number 10: General Equation of Motion (Navier Stockes Equations)
11Week Number 11: Euler?s Equation of Motion
12Week Number 12: The Complex Potential for Irrotational Flows ? Quiz
13Week Number 13: Fluid Forces and Blasius Theorem
14Week Number 14: Introduction to Compressible Fluid Flow
15Week Number 15 Momentum and Airfoil Bladings
16Week Number 16: Final Examination
1Week Number 1: Introduction to Differential Analysis of Fluid Flow
2Week Number 2: Kinematics of fluids flow
3Week Number 3: Kinematics of fluids flow (Cont.)
4Week Number 4: Linear Motion, Angular Motion and Deformation
5Week Number 5: Conservation of Mass and Stream Function
6Week Number 6: Velocity Potential and Irrotational Flow Fluids
7Week Number 7: Velocity Potential and Irrotational Flow Fluids - Quiz
8Week Number 8: Basic Two-Dimensional Plane Potential Flow Fields
9Week Number 9: Dynamics of Fluid Flow
10Week Number 10: General Equation of Motion (Navier Stockes Equations)
11Week Number 11: Euler?s Equation of Motion
12Week Number 12: The Complex Potential for Irrotational Flows ? Quiz
13Week Number 13: Fluid Forces and Blasius Theorem
14Week Number 14: Introduction to Compressible Fluid Flow
15Week Number 15 Momentum and Airfoil Bladings
16Week Number 16: Final Examination
1Week Number 1: Introduction to Differential Analysis of Fluid Flow
2Week Number 2: Kinematics of fluids flow
3Week Number 3: Kinematics of fluids flow (Cont.)
4Week Number 4: Linear Motion, Angular Motion and Deformation
5Week Number 5: Conservation of Mass and Stream Function
6Week Number 6: Velocity Potential and Irrotational Flow Fluids
7Week Number 7: Velocity Potential and Irrotational Flow Fluids - Quiz
8Week Number 8: Basic Two-Dimensional Plane Potential Flow Fields
9Week Number 9: Dynamics of Fluid Flow
10Week Number 10: General Equation of Motion (Navier Stockes Equations)
11Week Number 11: Euler?s Equation of Motion
12Week Number 12: The Complex Potential for Irrotational Flows ? Quiz
13Week Number 13: Fluid Forces and Blasius Theorem
14Week Number 14: Introduction to Compressible Fluid Flow
15Week Number 15 Momentum and Airfoil Bladings
16Week Number 16: Final Examination

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 BachelorBachelor
  • Code: ME461ME461
  • Credit hrs: 33
  • Prequisites: ME362
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