COURSE INFORMATON
Course Title Code Semester L+P Hour Credits ECTS
Fluid Mechanics I ME   311 5 3 3 5

Prerequisites and co-requisites
Recommended Optional Programme Components None

Language of Instruction English
Course Level First Cycle Programmes (Bachelor's Degree)
Course Type
Course Coordinator Prof.Dr. Beşir ŞAHİN
Instructors
Prof.Dr.BEŞİR ŞAHİN1. Öğretim Grup:A
Prof.Dr.HÜSEYİN AKILLI1. Öğretim Grup:B
Prof.Dr.BEŞİR ŞAHİN2. Öğretim Grup:A
Prof.Dr.HÜSEYİN AKILLI2. Öğretim Grup:B
 
Assistants
Goals
To teach the basic principles and equations of fluid mechanics; To present numerious and diverse real-world engineering examples to give students a feel for how fluid mechanics is applied in engineering practice; To develop a comprehensive understanding of fluid mechanics by emphasizing the physics of flow, and by supplying related figures and visual documents to reinforce the flow physics.
Content
Introduction and Basic Concepts, Properties of Fluids, Pressure and Fluid Statics, Fluid Kinematics, Mass Bernoulli and Energy Equations, Momentum Analysis of Fluid Systems

Learning Outcomes
1) To be able to understand the basic concepts of fluid mechanics and recognize the various type of fluid flow problems encountered in engineering applications
2) To Have a working knowledge of accuracy, precision and significance of digits, and recognice the importance of the dimentional homogenity in engineering calculations
3) To have a working knowledge of the basic properties of fluids and to understand the continuum approximation and to have a working knowledge of viscosity and the consequences of the frictional effects it causes in fluid flow
4) To calculate the capillary rises and drops due to the tension effect
5) Durgun akış içerisinde basınç dağılımını belirleme ve durgun haldeki bir akışkan tarafından düz ve eğrisel yüzeyler üzerine uygulanan kuvvetleri hesaplama
6) To analyze the rigid-body motion of fluids in containers during linear acceleration or rotation
7) To understand the material derivative in transforming betweeen Lagrangian and Eulerian descriptions, To define the charateristics of a fluid flow using the qualitative and quantitave flow visualization tehniques
8) To represent mathematically and physically the concepts like stream function, vortcity and irrotationality
9) To apply the mass equation to balance the incoming and outgoing flow rates in the flow system, - To recognize various forms of mechanical energy
10) To be able to understand Bernoulli equation mathematically and physically and apply it to engineering problems
11) To identify the various kinds of forces and moments acting on a control volume and use control volume anlysis to determine the forces associated with fluid flow
12) To use control volume analysis to determine the moments caused by fluid flow and the torque transmitted
13) To develop a better understanding of dimensions, units, and dimensional homogenity of equations
14) To know how to use the method of repeating variables to identify nondimentional parameters
15) To understand the concenpt of dynamic similarity and how to apply it to experimental modelling


Course's Contribution To Program
NoProgram Learning OutcomesContribution
12345
1
Student become equipped with the basic knowledge of math, science and engineering
X
2
Students gain a command of basic concepts, theories and principles in mechanical engineering
X
3
Students are able to design and carry out experiments in the basic fields of mechanical engineering, and interpret the results and the data obtained from the experiments
X
4
Students become equipped with a variety of skills and knowledge regarding engineering techniques
X
5
Students are able to design a system, component or process in order to meet the needs of various engineering problems within technical, economic, environmental, manufacturability, and sustainability limits.
X
6
Students independently review and learn the applications in an enterprise, make a critical assessment of the problems faced with, formulate problems and propose solutions by selecting the proper technique
X
7
Students take initiative in identification, design, development and use of a product or production process.
X
8
Students become aware of the necessity of lifelong learning and continuously self-renew
X
9
Students use English effectively for technical or non-technical topics orally or in wirtten form.
X
10
Students become effective in using computer, computer-aided drafting, design, analysis, and presentation
X
11
Students have good communicatino skills with a tendency to work in teams, and are able to work effectively as a member of an interdisciplinary team
X
12
Students become aware of the technical and ethical responsibilities, as well as being inquisitive and innovative
X

Course Content
WeekTopicsStudy Materials _ocw_rs_drs_yontem
1 Introduction to Basic Concepts Lecture, Exercise, Question Answer, Discussion, Practice, Question Answer, Discussion, Homework, Sampling Procedure Oral Information Exploration Lecture
Question-Answer
Discussion
Drilland Practice
Homework
2 Introduction to Basic Concepts Lecture, Practice, Question Answer, Discussion, Drilland Practice, Question Answer, Discussion, Homework, Sampling Procedure Verbal Information Exploration, Problem Solving Lecture
Question-Answer
Discussion
Drilland Practice
Problem Solving
Homework
3 Properties of Fluids Lecture, Exercise, Question Answer, Discussion, Practice, Question Answer, Discussion, Homework, Sampling Procedure Oral Information Exploration Lecture
Question-Answer
Discussion
Drilland Practice
Homework
4 Properties of Fluids Lecture, Drilland Practice, Question Answer, Discussion, Practice, Question Answer, Discussion, Homework, Sampling Procedure Verbal Information Exploration, Problem Solving Lecture
Question-Answer
Discussion
Drilland Practice
Problem Solving
Homework
5 Pressure and Fluid Statics Lecture, Exercise, Question Answer, Discussion, Practice, Question Answer, Discussion, Homework, Sampling Procedure Oral Information Exploration Lecture
Question-Answer
Discussion
Drilland Practice
Homework
6 Pressure and Fluid Statics Lecture, Drilland Practice, Question Answer, Discussion, Practice, Question Answer, Discussion, Homework, Sampling Procedure Verbal Information Exploration, Problem Solving Lecture
Question-Answer
Discussion
Drilland Practice
Problem Solving
Homework
7 Fluid Kinematics Lecture, Exercise, Question Answer, Discussion, Practice, Question Answer, Discussion, Homework, Sampling Procedure Oral Information Exploration Lecture
Discussion
Drilland Practice
Problem Solving
Homework
8 Mid-Term Exam Lecture, Drilland Practice, Question Answer, Discussion, Practice, Question Answer, Discussion, Homework, Sampling Procedure Verbal Information Exploration, Problem Solving Lecture
Question-Answer
Discussion
Drilland Practice
Problem Solving
Performance Task
Performans Uygulaması
9 Midterm Exam Exam, Lecture, Drilland Practice, Question Answer, Discussion, Practice, Question Answer, Discussion, Homework, Sampling Procedure Verbal Information Exploration, Problem Solving Lecture
Question-Answer
Discussion
Drilland Practice
Testing
Homework
10 Mass, Bernoulli and Energy Equations Lecture, Drilland Practice, Question Answer, Discussion, Practice, Question Answer, Discussion, Homework, Sampling Procedure Verbal Information Exploration, Problem Solving Lecture
Question-Answer
Discussion
Drilland Practice
Problem Solving
Homework
11 Mass, Bernoulli and Energy Equations Lecture, Exercise, Question Answer, Discussion, Practice, Question Answer, Discussion, Homework, Sampling Procedure Oral Information Exploration
12 Momentum Analysis of Fluid Systems Lecture, Drilland Practice, Question Answer, Discussion, Practice, Question Answer, Discussion, Homework, Sampling Procedure Verbal Information Exploration, Problem Solving Lecture
Question-Answer
Discussion
Drilland Practice
Problem Solving
Performance Task
Performans Uygulaması
13 Momentum Analysis of Fluid Systems Lecture, Exercise, Question Answer, Discussion, Practice, Question Answer, Discussion, Homework, Sampling Procedure Oral Information Exploration Lecture
Question-Answer
Discussion
Drilland Practice
Homework
14 Momentum Analysis of Fluid Systems Lecture, Drilland Practice, Question Answer, Discussion, Practice, Question Answer, Discussion, Homework, Sampling Procedure Verbal Information Exploration, Problem Solving Lecture
Question-Answer
Discussion
Drilland Practice
Problem Solving
Homework
15 Momentum Analysis of Fluid Systems Lecture, Exercise, Question Answer, Discussion, Practice, Question Answer, Discussion, Homework, Sampling Procedure Oral Information Exploration Lecture
Question-Answer
Discussion
Drilland Practice
Problem Solving
Homework
16-17 Term Exams Exam Testing

Recommended or Required Reading
Textbook
Additional Resources