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Language of Instruction
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English
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Level of Course Unit
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Bachelor's Degree
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Department / Program
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MECHANICAL ENGINEERING
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Type of Program
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Formal Education
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Type of Course Unit
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Compulsory
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Course Delivery Method
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Face To Face
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Objectives of the Course
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1. To define the basic principles and equation of fluid mechanics
2. To calculate fluid statics and pressure
3. To describe the fluid kinematics
4. To examine the fundamental conversation laws of mass and energy
5. To develop an intuitive understanding of fluid mechanics by emphasizing the physics
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Course Content
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This is an introduction course to fluid mechanics to whom will have an opportunity to develop and demonstrate an understanding of the basic concepts and properties of fluids, pressured and fluid statics. Reynold Transport Theorem (RTT), Bernoulli, energy equations, Momentum analysis and dimensional analysis will be covered in this course.
This is an introduction course to fluid mechanics where students will have an opportunity to develop and demonstrate an understanding of the basic concepts and properties of fluids, pressured and fluid statics. Reynold Transport Theorem (RTT), Bernoulli, energy equations, Momentum analysis and dimensional analysis will be covered in this course.
This course will require group projects, quizzes, and homework. Students will be encouraged to report given group project in a proper writing format. Completed projects will provide to students the ability to communicate effectively and clearly in writing.
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Course Methods and Techniques
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Evaluation Criteria Weight (%)
Midterm 30%
Team project Report 10%
Team project Presentation 10%
Final Exam 30%
Quizzes 20%
Total 100%
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Prerequisites and co-requisities
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( MATH203 ) and ( MATH205 )
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Course Coordinator
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None
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Name of Lecturers
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Asist Prof.Dr. MİKAİL TEMİREL
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Assistants
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None
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Work Placement(s)
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No
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Recommended or Required Reading
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Resources
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CH#1-Introduction to Basic Concepts
CH#2-Properties of Fluids
CH#3-Pressure, Fluid Statics and Viscosity
Hydrostatic Force on a Flat submerged Plane
Hydrostatic Force on a Curved submerged Plane
CH#4-Fluid Kinematics
Acceleration Field
Lecture and Recitation
Week of Active Learning -Midterm
Reynolds Transfer Theorem (RTT)
CH#5-Mass, Bernoulli and energy equations
Mechanical Energy and Efficiency
General Energy Equation
Angular momentum
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