FACULTY OF ENGINEERING
MECHANICAL ENGINEERING
MECHANICAL ENGINEERING
Course Name   FLUID MECHANICS
Semester Course Code Theoretical / Practice time ECTS
5 1215511 4 / 0 4
Course Degree Bachelor's degree
Course Language İngilizce
Format of Delivery: Face to Face
Course Coordinator
Coordinator e-mail
Instructors
Prof.Dr. Muammer Özgören , Yrd.Doç.Dr. Kevser Dincer
Asistant Instructors
Arş.Gör. Sercan Doğan
Course Objectives -This course is an introduction to fluid mechanics and basic concepts, and emphasizes fundamental concepts and problem-solving techniques. -Encourages creative thinking and development of a deeper understanding and intuitive feel for fluid mechanics. Moreover, Students who take this course -can determine hydrostatics forces exerted on surface -can determine forces exerted by flow on fixed and moving surface surfaces -can calculate pressure, velocity and acceleration in a flow field -can compute energy losses in pipe flows -can derivate the differential equations of fluid flow and can solve them for simple flow fields. -Introduction to Computational Fluid Dynamics
Basic Sciences Engineering Scinces Social Sciences Educational Sciences Artistic sciences Medical Science Agricultural sciences
50 50 0 0 0 0 0
Course Learning Methods and Techniquies
face to face
Week Course Content Resource
1 Introduction and Basic Concepts Yunus A. Çengel John M. Cimbala, Fluid Mechanics: Fundamentals and Applications, McGrawHill, 2006.
2 Properties of Fluids "
3 Pressure and Fluid Statics "
4 Pressure and Fluid Statics and application examples "
5 Fluid Kinematics "
6 Mass, Bernoulli and Energy Equations "
7 Linear and angular Momentum Analysis of Flow Systems "
8 Midterm Exam
9 Dimensional Analysis and Modeling Yunus A. Çengel John M. Cimbala, Fluid Mechanics: Fundamentals and Applications, McGrawHill, 2006.
10 Flow in Pipes "
11 Flow in Pipes and application examples "
12 Flow measurement techniques and applications "
13 Differential Analysis of Fluid Flow "
14 Differential Analysis of Fluid Flow and application examples "
15 Introduction to Computational Fluid Dynamics "
Assesment Criteria   Mid-term exam Final exam
  Quantity Percentage Quantity Percentage  
Term Studies : - - - -
Attendance / Participation : - - - -
Practical Exam : - - - -
Special Course Exam : - - - -
Quiz : - -
Homework : - - - -
Presentations and Seminars : - - - -
Projects : - - - -
Workshop / Laboratory Applications : - - - -
Case studies : - - - -
Field Studies : - - - -
Clinical Studies : - - - -
Other Studies : - - - -
Mid-term exam   2 40 - -
Final exam   - - 1 60
ECTS WORK LOAD TABLE   Number Duration
Course Duration : 14 3
Classroom Work Time : 14 3
Presentations and Seminars : - -
Course Internship : - -
Workshop / Laboratory Applications : - -
Field Studies : - -
Case studies : - -
Projects : - -
Homework : - -
Quiz : 1 6
Mid-term exam : 1 10
Final Exam : 1 20
ECTS 4
No COURSE LEARNING OUTCOMES CONTRIBUTION
D.Ö.Ç. 1 Students who take this course I. can define fluid and differentiate common and distinct properties between liquids and gases, II. can calculate the hydrostatic force and moments on submerged surfaces, III. can calculate mass and volume flow rate and average flow velocity in a given problem, IV. can use the momentum equation in integral form to calculate the forces and moments exerted by the fluid motion on devices or structures such as elbows, supports and rotating machinery, V. know the concept of dynamic similarity and can apply it to experimental modeling VI. can calculate head losses by effectively using moody t in problems involving flow in pipe systems, VII. can compute the pressure and power of pump in a pumping system. VIII. can analytically solve the governing equations in differential form for the simple flow field. 4
* 1: Zayıf - 2: Orta - 3: İyi - 4: Çok İyi
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