Information Of Programmes

FACULTY OF ENGINEERING & ARCHITECTURE / MM309 - DEPARTMENT OF MECHANICAL ENGINEERING

Code: MM309

Course Title: FLUID MECHANICS-I

Theoretical+Practice: 3+0

ECTS: 4

Year/Semester of Study

3 / Fall Semester

Level of Course

1st Cycle Degree Programme

Type of Course

Compulsory

Department

DEPARTMENT OF MECHANICAL ENGINEERING

Pre-requisities and Co-requisites

None

Mode of Delivery

Face to Face

Teaching Period

14 Weeks

Name of Lecturer

OSMAN GÖKDOĞAN (osmangokdogan@nevsehir.edu.tr)

Name of Lecturer(s)

Language of Instruction

Turkish

Work Placement(s)

None

Objectives of the Course

This course is an introduction to fluid mechanics for engineering disciplines. The course covers conservation laws, which form the basis of fluid mechanics, and describes how these laws can be used to develop methods for the analysis of simple flow systems.

Learning Outcomes		PO	MME
The students who succeeded in this course:
LO-1	will be able to explain the concept of fluid, the common and different aspects between liquids and gases	PO-3 Student determines the engineering problems, identifies, formulates and solves, this purpose, the ability to select and apply appropriate analytical methods and modeling techniques	Examination
LO-2	will be able to solve problems such as viscosity, superficial stress and evaporation pressure.	PO-3 Student determines the engineering problems, identifies, formulates and solves, this purpose, the ability to select and apply appropriate analytical methods and modeling techniques	Examination
LO-3	will be able to calculate the compressive force, effect point and moment acting on the immersed surfaces.	PO-3 Student determines the engineering problems, identifies, formulates and solves, this purpose, the ability to select and apply appropriate analytical methods and modeling techniques	Examination
LO-4	can classify the flows as uniform / non-uniform, permanent / non-permanent, compressible / incompressible, friction / frictionless, laminar / turbulent, one-dimensional / two-dimensional / three-dimensional.	PO-3 Student determines the engineering problems, identifies, formulates and solves, this purpose, the ability to select and apply appropriate analytical methods and modeling techniques	Examination
LO-5	can calculate the forces and moments that act on the deflectors, elbows and loops, rotating systems by means of the amount of motion equation.	PO-1 Student, mathematics, physics, chemistry and basic engineering knowledge, has the sufficient information for use in the field of Mechanical Engineering. PO-3 Student determines the engineering problems, identifies, formulates and solves, this purpose, the ability to select and apply appropriate analytical methods and modeling techniques	Examination
PO: Programme Outcomes MME:Method of measurement & Evaluation

Course Contents
Basic properties of the fluid system: viscosity, stress, strain, thermodynamic pressure, etc., basic kinematics and dynamic topics: spatial and material definition; integral and differential approach to fluid motion; basic conservation laws in fluid motion: mass, momentum, energy.
Weekly Course Content
Week	Subject	Learning Activities and Teaching Methods
1	Introduction to Fluid Mechanics, Fluid Properties and Basic concepts.	Presentation, answer-question, solution of problems methods
2	Fluid Statics.	Presentation, answer-question, solution of problems methods
3	Forces on Plane Surfaces and External Flows,Buoyancy force.	Presentation, answer-question, solution of problems methods
4	Fluid Kinematics.	Presentation, answer-question, solution of problems methods
5	Integral Forms of the Fundamental Laws.	Presentation, answer-question, solution of problems methods
6	Integral Forms of the Fundamental Laws.	Presentation, answer-question, solution of problems methods
7	Differential Forms of the Fundamental Laws.	Presentation, answer-question, solution of problems methods
8	mid-term exam
9	Differential Forms of the Fundamental Laws.	Presentation, answer-question, solution of problems methods
10	Dimensional Analysis and Similitude.	Presentation, answer-question, solution of problems methods
11	Applications of Bernoulli Equation.	Presentation, answer-question, solution of problems methods
12	tatic, Stagnation Dynamic, and Total Pressure, Flow Measurement Systems.	Presentation, answer-question, solution of problems methods
13	Flow in Conduits and Pipes,Laminar and Turbulent Flow in Pipes, Major and Minor Losses in Pipes.	Presentation, answer-question, solution of problems methods
14	Flow in Conduits and Pipes,Laminar and Turbulent Flow in Pipes, Major and Minor Losses in Pipes.	Presentation, answer-question, solution of problems methods
15	Flow in Conduits and Pipes,Laminar and Turbulent Flow in Pipes, Major and Minor Losses in Pipes.	Presentation, answer-question, solution of problems methods
16	final exam
Recommend Course Book / Supplementary Book/Reading
1	Çengel, Y.A. andCimbala, J.M, FluidMechanics: Fundamentals and Applications, McGraw-Hill, 2006: Türkçesi: Engin, T. (Çeviri Editörü)
Required Course instruments and materials

Assessment Methods
Type of Assessment	Week	Hours	Weight(%)
mid-term exam	8	1	40
Other assessment methods
1.Oral Examination
2.Quiz
3.Laboratory exam
4.Presentation
5.Report
6.Workshop
7.Performance Project
8.Term Paper
9.Project
final exam	16	1	60

Student Work Load
Type of Work	Weekly Hours	Number of Weeks	Work Load
Weekly Course Hours (Theoretical+Practice)	3	14	42
Outside Class
a) Reading	2	8	16
b) Search in internet/Library			0
c) Performance Project			0
d) Prepare a workshop/Presentation/Report			0
e) Term paper/Project			0
Oral Examination			0
Quiz			0
Laboratory exam			0
Own study for mid-term exam	5	6	30
mid-term exam	1	1	1
Own study for final exam	5	6	30
final exam	1	1	1
			0
			0
Total work load;			120