Kocaeli University / European Credit Transfer System (ECTS)

Name of Lecturer(s)

Prof. Dr. Fatma ÇANKA KILIÇ
Lecturer Hatice Nil YALÇIN

Learning Outcomes of the Course Unit
Program Competencies-Learning Outcomes Relation

Learning Outcomes of the Course Unit

1) Explain the unit systems SI unit system, material concepts, and state of the materials.
2) Describe and exemplify force concept, scalar and vectorial quantities.
3) Describe and exemplify work, power, energy, potential and kinetic energy, steady flow, volumetric flow rate, mass flow rate, viscosity and their connections.
4) Explain and exemplify moment effect of a force and solve related problems.
5) Draw velocity profile of a flow in the pipe. Describe laminar and turbulent flows. Explain Bernoulli’s equation.

Program Competencies-Learning Outcomes Relation

		Program Competencies
		1	2	3	4	5	6	7	8	9
Learning Outcomes
	1	Low	Middle	Middle	High	High	High	High	High	High
	2	Middle	High	High	High	High	High	High	High	Middle
	3	Middle	Low	High	High	High	High	High	High	High
	4	Middle	Middle	High	High	High	High	High	Middle	High
	5	Low	Middle	High	High	High	High	High	Middle	High

Mode of Delivery

Face to Face

Prerequisites and Co-Requisites

None

Recommended Optional Programme Components

There is not

Course Contents

The subject matter of Scientific Principles of Technology general frameworks, basic concepts and problems, development of basic physical science, a basic mechanical and electrical science, development of the students some competence in laboratory work involving isolation of the variables in an investigation, plotting and analysis of graphs and basic laboratory techniques.

Weekly Schedule

1) Recognition of unit system. The usage and listing of standards like CGS ve SI in exercises.
2) The explanation of material concept and material types and also states of matter
3) Explanation and exemplification of scalar and vector quantities
4) Definition and classification of force concept
5) Explanation and exemplification of the moment effect of a force Identifying balance and the implementation of the balance conditions
6) Explanation and exemplification of work, energy and power concepts
7) Explanation and exemplification of ptantial and kinetic energy connections
8) Midterm examination/Assessment
9) Explanation and exemplification of Steady flow, volumetric rate and mas flow rate concepts
10) The concept of viscosity, dynamic and kinematic viscosity are defined sampling
11) Laminar and turbulent flows in a pipe flow velocity profile is drawn in defining the average speed
12) Explanation and exemplification of Bernoulli equation
13) The application of energy equation to venturi tube, curved pipe and a liquid flowing from the tank
14) Explanation of Bernoulli's equation graphically
15) Explanation of the causes of pressure losses in pipes and connecting elements
16) Final examination

Planned Learning Activities and Teaching Methods

1) Lecture
2) Question-Answer
3) Discussion
4) Drill and Practice
5) Lab / Workshop

Assessment Methods and Criteria

Contribution of Semester Studies to Course Grade

40%

		Number	Percentage
Semester Studies	Midterm Examination	1	80%
Semester Studies	Practices	1	20%

Contribution of Final Examination to Course Grade

60%

Total

100%

Language of Instruction

Turkish

Work Placement(s)

Not Required

Course Unit Title	Course Unit Code	Type of Course Unit	Level of Course Unit	Year of Study	Semester	ECTS Credits
Scientific Principles of Air Conditioning-refrigeration Technology	ISP103	Compulsory	Associate degree	1	Fall	6