To be able to make 2D and 3D drawings and designs using digital design software in the computer environment. To have an idea about basic modeling processes.
Prerequisite(s)
Course Code Course Name…
Corequisite(s)
Course Code Course Name…
Special Requisite(s)
Instructor(s)
Lecturer Tuncay Dil
Course Assistant(s)
Schedule
Tuesday, 09:30-13:30, Incirli Campus 5B07
Office Hour(s)
Thursday, 13:00-15:00, Incirli Campus 2A-03
Teaching Methods and Techniques
-Explanation and application
Principle Sources
Other Sources
Course Schedules
Week
Contents
Learning Methods
1. Week
Basic Concepts of Computer Aided Design, introduction to AutoCad
Lecture, Visual presentation, Demonstration with examples, reinforcement with practice
2. Week
Introduction of AutoCad screen, Introduction of status bar and application
Lecture, Visual presentation, Demonstration with examples, reinforcement with practice
3. Week
Introduction of drawing commands (Line, Rectangle, Arc, Circle, Ellipse), application
Lecture, Visual presentation, Demonstration with examples, reinforcement with practice
4. Week
Introduction of drawing commands (multiline, polyline, spline) application
Lecture, Visual presentation, Demonstration with examples, reinforcement with practice
5. Week
Introduction of drawing modes (grid, snap, ortho..) application
Lecture, Visual presentation, Demonstration with examples, reinforcement with practice
6. Week
Introduction of drawing assistant commands (capture commands, reference commands) application
Lecture, Visual presentation, Demonstration with examples, reinforcement with practice
7. Week
Midterm Exam
8. Week
Introduction of edit commands (erase, undo, trim,,) application
Lecture, Visual presentation, Demonstration with examples, reinforcement with practice
9. Week
Introduction of edit commands (rotate, explode, scale,,,) application
Lecture, Visual presentation, Demonstration with examples, reinforcement with practice
10. Week
Layer features and commands introduction and application
Lecture, Visual presentation, Demonstration with examples, reinforcement with practice
11. Week
Plot features and introduction, application
Lecture, Visual presentation, Demonstration with examples, reinforcement with practice
12. Week
APPLICATION
Lecture, Visual presentation, Demonstration with examples, reinforcement with practice
13. Week
APPLICATION
Lecture, Visual presentation, Demonstration with examples, reinforcement with practice
14. Week
APPLICATION
Lecture, Visual presentation, Demonstration with examples, reinforcement with practice
15. Week
final exam
16. Week
17. Week
Assessments
Evaluation tools
Quantity
Weight(%)
Midterm(s)
1
40
Final Exam
1
60
Program Outcomes
PO-1
Have knowledge about the structure, operation and maintenance of geothermal power plants.
PO-2
Gains knowledge of hybrid systems
PO-3
Gain knowledge about the operation, maintenance and repair of Nuclear Power Plants.
PO-4
Gains knowledge of energy storage systems
PO-5
With the awareness of the necessity of lifelong learning, it follows the technological and scientific developments in its field and constantly renews itself.
PO-6
Gains knowledge of how to produce electricity with solar energy.
PO-7
Gains knowledge of the relationship between energy and environmental economy.
PO-8
Have the necessary and sufficient basic mathematical knowledge. Makes mathematical calculation, analysis and evaluation related to his profession.
PO-9
Become aware of project management and workplace applications related to Energy Systems.
PO-10
Knows the basic electrical concepts. Circuit solutions related to electrical circuits are realized.
PO-11
By learning the concepts related to thermodynamics, makes the necessary analysis and calculations.
PO-12
Gains knowledge of biomass and energy production.
PO-13
Understands the importance of renewable energy sources
PO-14
Have knowledge about the production, maintenance and repair of solar panels and explain the method of generating electrical energy from solar energy.
PO-15
Knows the basic laws and units of physics. It can perform transformations between energies using these rules.
PO-16
Gains knowledge of the structure, maintenance and repair of wind turbines. Explain the method of electrical energy produced by wind turbines.
PO-17
Knows the method of generating energy from hydrogen energy and knows the necessary steps for energy production.
PO-18
Gains knowledge of semiconductor circuit elements used in the field of power electronics.
PO-19
Having the necessary information regarding energy management strategies in Turkey and the world.
Learning Outcomes
LO-1
Can make basic two-dimensional drawings using the Autocad program. Can make basic two-dimensional drawings using the Autocad program.
LO-2
Can read drawings created with drawing programs
LO-3
Can make edits and additions to created technical drawings.
LO-4
It can ensure that the drawings and projects created are presented and printed out.