COURSE INFORMATON 
Course Title Code Semester L+P (Hour) Credits ECTS
Computer Aided Technical Drawing I FE 103 1 2+1 3 5
Prerequisites NONE
Language of Instruction English 
Course Level Bachelor 
Course Type Compulsory
Course Instructor Asst. Prof. Dr. Fırat EKİNCİ
Assistants  
Goals This course aims to teach the rules of classical technical drawing as well as to teach how to perform technical drawing with the help of the most widely used Computer Aided Design and Drafting program AutoCAD 
Content Introduction to technical drawing (drawing paper, letterhead, Scales, Lines, Writing). Geometric drawings and computer aied drawing. Projection techniques.Orthographic drawing and sketching. Auxiliary views, Sectional views. Perspective drawings and dimensioning 
 
Learning Outcomes Teaching Methods Assessment Methods
Understands the basic principles of technical drawing 1,2,3,4 C,E
Comprehend and apply the norms of Line, writing and drawing papers 1,2,3,4 C,E
Makes geometric drawings 1,2,3,4 C,E
comprhending ortographic projection and sketching 1,2,3,4 C,E
to be able to draw pictorial views and to make dimensioning 1,2,3,4 C,E
To be able to know and apply methods of sectional wiews 1,2,3,4 C,E
Ability to computer aided technical drawing 1,2,3,4 C,E
Ability to redaing technical drawing 1,2,3,4 C,E
Teaching Methods:  1: Lecture, 2: Question-Answer, 3: Discussion, 4: Drilland Practice, 5: Demonstration, 6: Motivations to Show, 7: Role Playing, 8: Group Study, 9: Simulation, 10: Brain Storming, 11: Case Study, 12: Lab / Workshop, 13: Self Study, 14: Problem Solving, 15: Project Based Learning, 16: Undefined
Assessment Methods:  A: Testing, B: Oral Exam, C: Homework, D: Project / Design, E: Performance Task,           F: Portfolio, G: Undefined
 
COURSE CONTENT
Week Topics Study Materials
1 Introduction to technical drawing. The concept of basic technical drawing.  
2 The fundamental principles of technical drawing.  
3 Simple geometric drawings  
4 Simple geometric drawings, simple drawings with AutoCAD  
5 Standard norm writing, basic drawings and writing with AutoCAD  
6 Line types and groups-layers and lines with AutoCAD  
7 Multiview drawing  
8 Multiview drawing  
9 Multiview drawing  
10 Midterm  
11 Scales and principles of scaling - Scaling with AutoCAD  
12 Sectional views - obtaining sectional views with AutoCAD  
13 Sectional views - obtaining sectional views with AutoCAD  
14 Percpectives - drawing of isometric perspectives with AutoCAD  
       
       
RECOMMENDED SOURCES
Textbook TEKNİK RESİM I Kemal TÜRKDEMİR Pamukkale Üniversitesi Yayınları ISBN 975-93741-1-3
 
Additional Resources  
 
 
           
MATERIAL SHARING
Documents 1-8 Weeks  
Exam Questions  
9-14 Weeks  
Assignments Homeworks  
Exams Date of Exams  
Date of Quizzes  
 
ASSESSMENT
IN-TERM STUDIES QUANTITY PERCENTAGE
Mid-terms 1 40
Quizzes 0 0
Practice 0 0
Homeworks 0 0
Final 1 60
Total 100
 
CONTRIBUTION OF IN-TERM STUDIES TO OVERALL GRADE 40
CONTRIBUTION OF FINAL EXAMINATION TO OVERALL GRADE 60
Total 100
 
COURSE CATEGORY Professional
 
 
 COURSE'S CONTRIBUTION TO PROGRAM
No Program Learning Outcomes Contribution
1 Knowledge on Mathematics, Science and Materials Engineering, and an ability to apply the theoretical and applied knowledge gained in these areas to model and solve engineering problems 5
2 Graduates who have awareness of project-based work culture 2
3 Ability of designing and conducting experiments, conduction data acquisition and analysis and making conclusions on the solution of any specific materials engineering problem 2
4 Ability to select, use and improve the techniques, skills, and modern engineering tools necessary for Materials Engineering practice; ability to use information technology effectively 2
5 Ability to detect, identify, formulate, and solve complex/complicated engineering problems; ability to select and use appropriate analysis and modeling methods for this purpose 5
6 Ability to design and select material for a system, component, product or a process under realistic conditions and constraints to meet desired needs; ability to apply modern design and material selection methods for this purpose 4
7 Ability to work in teams from his/her area or in multidisciplinary teams 3
8 Ability of effective oral and official communication skills in Turkish Language and, at least, one foreign language at B2 level according to European Language Portfolio  4
9 Graduates who have well-structured responsibilities in profession and ethics 2
10 Broad education necessary to understand the effects of engineering solutions on environmental, health, security at global and social scales 3
11 Awareness of the need for lifelong learning, access to information, to follow developments in science and technology and continuous self-renewal ability 1
12 Knowledge on applications of proffession life including project management, risk management, change management and agility at administration; awareness of entrepreneurship, innovation, sustainable development and results of legal consequences of engineering solutions 1
Contribution: 1: Very-Low, 2: Low, 3: Mid, 4:High, 5:Very-High
ECTS ALLOCATED BASED ON STUDENT WORKLOAD BY THE COURSE DESCRIPTION
Activities Quantity Duration
(Hour)
Total Workload (Hour)
Course Duration (Including the exam week: 16x Total course hours) 14 3 42
Hours for off-the-classroom study (Pre-study, practice) 0 0 0
Assignments 0 0 0
Midterm Exams 1 2 2
Final Exam 1 2 2
Performance Task (Laboratory) 14 2 28
Total Work Load 74
Total Work Load / 30 (h) 2,47
ECTS Credit of the Course 5