1. FIRST CYCLE - BACHELOR'S DEGREE
  2. FACULTY OF ENGINEERING
  3. TEXTILE ENGINEERING DEPARTMENT
  4. 251 Textile Engineering
Course Information Course Learning Outcomes Course's Contribution To Program ECTS Workload Course Details
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COURSE INFORMATION
Course CodeCourse TitleL+P HourSemesterECTS
MENG 483FLUID MECHANICS3 + 08th Semester4

COURSE DESCRIPTION
Course Level Bachelor's Degree
Course Type Elective
Course Objective Introduce the basic concepts of fluid mechanics, the basic equations of fluid mechanics to identify, formulate, and solve the problems of teaching students how to use.
Course Content Fluid Statics (Introduction to Hydro static, Hydro static forces on submerged plane surfaces, Hydro static forces on submerged curved surfaces, Buoyancy and Stability, Fluids in Rigid Body Motion, Fluid Mass Subjected to Acceleration) •Bernoulli, Energy and Momentum Equation (The Bernoulli Equation, Static, Dynamic and Stagnation Pressure, Application of the Bernoulli Equation, Work-Energy Equation, Energy Equation for Flow System, , Navier-Stokers Equations) •Flow of a Real Fluid (Laminar and Turbulent Flow, Fluid Flow Past Solid Boundaries, Fundamental of Boundary Layer, Shear Stress and Head Loss) •Flow in Pipe (Fundamental Equation, Laminar Flow, Turbulent Flow, Pipe Friction Factors, Use of Moody Diagram, Local Losses in Pipelines, Pipelines Problems, Application of the Pipelines Problems.
Prerequisites No the prerequisite of lesson.
Corequisite No the corequisite of lesson.
Mode of Delivery Face to Face

COURSE LEARNING OUTCOMES
1Pressure, velocity and flow measurement methods will gain the ability to practice. Fixed or moving control volume, elbows and nozzles, rotating flow systems because of the amount of forces and torques acting with the help of the equation. Pressure force acting on immersed surfaces, and the moment of impact point. The concept of fluid, liquid and gases between the public and will know the different aspects, viscosity, surface tension, and gain the ability to solve problems involving concepts such as evaporation pressure. A flow mass flow rate, volumetric flow rate and the average speed.

COURSE'S CONTRIBUTION TO PROGRAM
PO 01PO 02PO 03PO 04PO 05PO 06PO 07PO 08PO 09PO 10PO 11PO 12PO 13PO 14PO 15PO 16PO 17PO 18PO 19PO 20
LO 0015553511111113       
Sub Total5553511111113       
Contribution55535111111130000000

ECTS ALLOCATED BASED ON STUDENT WORKLOAD BY THE COURSE DESCRIPTION
ActivitiesQuantityDuration (Hour)Total Work Load (Hour)
Course Duration (14 weeks/theoric+practical)14342
Hours for off-the-classroom study (Pre-study, practice)12112
Mid-terms12020
Final examination13030
Total Work Load

ECTS Credit of the Course





104

4
COURSE DETAILS
 Select Year   


 Course TermNoInstructors
Details 2021-2022 Spring1VOLKAN KAPLAN
Details 2020-2021 Fall1VOLKAN KAPLAN
Details 2019-2020 Fall1VOLKAN KAPLAN
Details 2012-2013 Fall1KADİR KAVAKLIOĞLU


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Course Details
Course Code Course Title L+P Hour Course Code Language Of Instruction Course Semester
MENG 483 FLUID MECHANICS 3 + 0 1 Turkish 2021-2022 Spring
Course Coordinator  E-Mail  Phone Number  Course Location Attendance
Asts. Prof. Dr. VOLKAN KAPLAN volkank@pau.edu.tr MUH A0227 %
Goals Introduce the basic concepts of fluid mechanics, the basic equations of fluid mechanics to identify, formulate, and solve the problems of teaching students how to use.
Content Fluid Statics (Introduction to Hydro static, Hydro static forces on submerged plane surfaces, Hydro static forces on submerged curved surfaces, Buoyancy and Stability, Fluids in Rigid Body Motion, Fluid Mass Subjected to Acceleration) •Bernoulli, Energy and Momentum Equation (The Bernoulli Equation, Static, Dynamic and Stagnation Pressure, Application of the Bernoulli Equation, Work-Energy Equation, Energy Equation for Flow System, , Navier-Stokers Equations) •Flow of a Real Fluid (Laminar and Turbulent Flow, Fluid Flow Past Solid Boundaries, Fundamental of Boundary Layer, Shear Stress and Head Loss) •Flow in Pipe (Fundamental Equation, Laminar Flow, Turbulent Flow, Pipe Friction Factors, Use of Moody Diagram, Local Losses in Pipelines, Pipelines Problems, Application of the Pipelines Problems.
Topics
WeeksTopics
1 Introduction
2 Fluid statics
3 Forces on submerged surfaces
4 Fluid kinematics
5 Mass conservation
6 Bernoulli equation
7 Momentum analysis
8 Similitude
9 Internal Flow
10 Pipe networks
11 Differential Analysis
12 Continuity equation
13 Navier Stokes Equations
14 External Flow
Materials
Materials are not specified.
Resources
ResourcesResources Language
Y. Çengel, J. M. Cimbala, Akışkanlar Mekaniği, Güven Bilimsel Yayınevi, 2008Türkçe
Course Assessment
Assesment MethodsPercentage (%)Assesment Methods Title
Final Exam60Final Exam
Midterm Exam40Midterm Exam
L+P: Lecture and Practice
PQ: Program Learning Outcomes
LO: Course Learning Outcomes