COURSE SYLLABUS

FLUID MECHANICS

1	Course Title:	FLUID MECHANICS
2	Course Code:	INS3053
3	Type of Course:	Compulsory
4	Level of Course:	First Cycle
5	Year of Study:	3
6	Semester:	5
7	ECTS Credits Allocated:	5
8	Theoretical (hour/week):	2
9	Practice (hour/week) :	0
10	Laboratory (hour/week) :	1
11	Prerequisites:	None
12	Recommended optional programme components:	None
13	Language:	Turkish
14	Mode of Delivery:	Face to face
15	Course Coordinator:	Prof. Dr. SERDAR KORKMAZ
16	Course Lecturers:
17	Contactinformation of the Course Coordinator:	skorkmaz@uludag.edu.tr 0224 24 09 04
18	Website:	http://insaat.uludag.edu.tr/
19	Objective of the Course:	To teach the student the theory and application of fluid mechanics, the fundamental of hydraulic engineering
20	Contribution of the Course to Professional Development

Learning Outcomes:

1	To be able to identify the physical properties of fluids;
2	To be able to calculate the hydrostatic forces acting on plane and curved surfaces by means of theory and experiments;
3	To be able to classify the types of fluid flow;
4	To be able to apply the fundamental conservation principles to pressurized and open channel flow problems by means of theory and experiments;
5	To be able to calculate the friction and minor losses in pressurized flows as well as pump and turbine powers;
6	To be able to improve in observation, measurement and report writing habitude by means of laboratory experiments;

22	Course Content:

Week	Theoretical	Practical
1	The field of fluid mechanics, descriptions, dimensions and units	Recitation
2	The field of fluid mechanics, descriptions, dimensions and units	Recitation
3	Physical properties of fluids, body and surface forces	Recitation
4	Physical properties of fluids, body and surface forces	Recitation
5	Hydrostatics, governing equation, pressure distribution and measurement	Recitation
6	Hydrostatic forces on plane and curved surfaces	Recitation
7	Hydrostatic forces on plane and curved surfaces	Hydrostatic pressure experiment
8	Kinematics, position, velocity, acceleration vectors, motion and deformation of a fluid element, flow types	Recitation
9	Kinematics, position, velocity, acceleration vectors, motion and deformation of a fluid element, flow types	Recitation
10	Concepts of system and control volume, Reynolds Transport Theorem	Recitation
11	Conservation of mass, momentum and energy, Bernoulli’s equation	Recitation
12	Conservation of mass, momentum and energy, Bernoulli’s equation	Water jet impact experiment
13	General characteristics of flow in pressurized pipes, friction losses, energy and hydraulic grade lines.	Recitation
14	General characteristics of flow in pressurized pipes, friction losses, energy and hydraulic grade lines.	Pitot tube experiment

23	Textbooks, References and/or Other Materials:	1. Fundamentals of Fluid Mechanics, B. R. Munson, D. F. Young, T. H. Okiishi, John Wiley, 2003. 2. Fluid Mechanics 6th Ed, F. M. White, McGraw Hill, 2008.
24	Assesment

TERM LEARNING ACTIVITIES	NUMBER	PERCENT
Midterm Exam	1	25
Quiz	0	0
Homeworks, Performances	3	15
Final Exam	1	60
Total	5	100
Contribution of Term (Year) Learning Activities to Success Grade		40
Contribution of Final Exam to Success Grade		60
Total		100
Measurement and Evaluation Techniques Used in the Course
Information

ECTS / WORK LOAD TABLE

CONTRIBUTION OF LEARNING OUTCOMES TO PROGRAMME QUALIFICATIONS

LO: Learning Objectives

PQ: Program Qualifications

Contribution Level:

1 Very Low

2 Low

3 Medium

4 High

5 Very High