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Week
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Topics
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Study Metarials
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1
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Basic concepts and units
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R1
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2
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Introduction to Fluid Mechanics
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R1
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3
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Properties of Fluids
|
R1
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4
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Pressure in Fluids
|
R1
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5
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Bernoulli Equation and Its Applications
|
R1
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6
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Viscosity and Its Effect on Fluid Flow
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R1
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|
7
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Reynolds Number and Flow in Pipes
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R1
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8
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Flow and Speed Measurement
|
R1
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|
9
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Fluid Flow Losses
|
R1
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|
10
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Ideal Gases and Gas Laws
|
R1
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|
11
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Ideal Gases and Gas Laws
|
R1
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|
12
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Relationship between Heat Energy, internal energy, mechanical work and specific heat capacities of gases
|
R1
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|
13
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Laws of Thermodynamics
|
R2
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14
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Volume, pressure and temperature variables in closed environments
|
R2
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Prerequisites
|
-
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Language of Instruction
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Turkish
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Responsible
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Lecturer İkbal AY KEÇELİ
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Instructors
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-
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Assistants
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-
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Resources
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R1: Çengel, Y.A .; Cimbala J. M., Fluid Mechanics Fundamentals and Applications, Güven Scientific, 2012
R2: Editor: Prof. Dr. Necdet Geren, Introduction to Mechanical Engineering, Papatya Science University Publishing, 1st Edition
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Supplementary Book
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-
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Goals
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To calculate the volume flow in fluids, the mass flow depending on the viscosity of the fluid, the pipe diameter and fluid velocity. To calculate the pressure, velocity, flow rate and power by using the bernouilli equation and without considering the losses, depending on the pressure, velocity and height of the fluid in the pipe used in fluid transport. To recognize the change of fluid flow and pressure in series and parallel pipes. To establish the relationship between heat energy and mechanical energy, to learn gas laws and to solve problems related to closed environments by using volume, pressure and temperature variables. To apply the state changes of ideal gases at constant volume, constant pressure and constant temperature in problems. To understand the general properties of measuring devices used in temperature, pressure, force and velocity measurement.
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Content
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Basic concepts and units, Introduction to fluid mechanics, Introduction to fluid mechanics, Fluid properties, Pressure in fluids, Bernoulli equation and its applications, Viscosity and its effect on fluid flow, Reynold`s number and flow in pipes, Flow rate and velocity measurement, Liquid flow losses, Ideal gases and gas laws Relationship between heat energy, internal energy, mechanical work and heat capacity of gases, Thermodynamic laws, Volume, pressure and temperature variables in closed environments
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Program Learning Outcomes |
Level of Contribution |
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1
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Has the basic Mathematics and Science knowldege.
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3
|
|
2
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Can comprehend the machine drawing, and draw the pictures of machine elements in accordancance with the rules both traditionally and on computer.
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-
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3
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Knows and applies machining and metal forming methods. Uses the the benches that are used in machining and metal forming.
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-
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4
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Can make measurement and quality control in the field of machine.
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1
|
|
5
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Recongnizes the material, knows thermal process and selects the proper material for manufacturing.
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1
|
|
6
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Processes the materials with cutting tools and in accordance with the cutting variables with the proper speed and feed rate.
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-
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7
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Designs the machine materials with a computer and forms the programme for computer controlled bench and processes.
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-
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8
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Knows the materials and symbols used in hydraulic and pneumatic systems. Makes a hydraulic and pneumatic circuit design.
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-
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9
|
Uses computer, prepares prepsentations and forms database files.
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-
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|
10
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Can calculate the strength of the materials according to the static and dynamic variables.
|
3
|
|
11
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Uses computerized drawing, design and manufacturing programmes related to the his/her vocation.
|
-
|
|
12
|
Recognizes the tools of position, velocity, pressure, force used in the machine industry and explains the working systems of them.
|
2
|
|
13
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Knows the basic principles of management and communication techniques and laws of work.
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-
|
|
14
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Plans the manufacturing, prepares the process cards, distributes the responsibilities and controls.
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-
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|
15
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Follows the developments related to the manufaturing higher technicians.
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-
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