ACADEMICS
Course Detail

ELE 391 Summer Practice I
2016-2017 Spring term information

The course is open this term
Section: 36
Supervisor(s):Dr. Atila Yılmaz
Assistant(s):Mehmet Gürbüz
PlaceDayHours
-

Timing data are obtained using weekly schedule program tables. To make sure whether the course is cancelled or time-shifted for a specific week one should consult the supervisor and/or follow the announcements.

Course definition tables are extracted from the ECTS Course Catalog web site of Hacettepe University (http://ects.hacettepe.edu.tr) in real-time and displayed here. Please check the appropriate page on the original site against any technical problems.

ELE391 - SUMMER PRACTICE I

Course Name Code Semester Theory
(hours/week)
Application
(hours/week)
Credit ECTS
SUMMER PRACTICE I ELE391 5th Semester 0 3 2 4
Prerequisite(s)ELE220 Circuit Theory II, ELE230 Electronics I, ELE237 Fundamentals of Digital Systems
Course languageEnglish
Course typeMust 
Mode of DeliveryFace-to-Face 
Learning and teaching strategiesObservation
Preparing and/or Presenting Reports
Drill and Practice
 
Instructor (s)Department Academic Staff 
Course objectiveThe main purpose of this summer practice program is to bring professional experience to students in electrical and electronics science and technology and related areas of engineering; as well as to improve their engineering skills by means of observing technological developments and applications in professional area; providing them with hands on training sessions within production environments and research laboratories in the organizations.  
Learning outcomes
  1. To let the students to observe, practice and implement the theoretical and practical topics they learned in their courses, and to let them to observe the processes in an industrial complex such as R&D, manufacturing and quality control.
Course ContentStudents will perform their summer practice at different sections of the firm under the supervision of an engineer, and will report his/her studies. 
References 

Course outline weekly

WeeksTopics
Week 1To experience processes such as R&D, manufacturing and quality control; to implement their theoretical knowledge and practical abilities in an industrial environment.
Week 2To experience processes such as R&D, manufacturing and quality control; to implement their theoretical knowledge and practical abilities in an industrial environment.
Week 3To experience processes such as R&D, manufacturing and quality control; to implement their theoretical knowledge and practical abilities in an industrial environment.

Assesment methods

Course activitiesNumberPercentage
Attendance150
Laboratory00
Application00
Field activities00
Specific practical training00
Assignments00
Presentation00
Project00
Seminar00
Midterms00
Final exam1100
Total100
Percentage of semester activities contributing grade succes00
Percentage of final exam contributing grade succes0100
Total100

Workload and ECTS calculation

Activities Number Duration (hour) Total Work Load
Course Duration (x14) 0 0 0
Laboratory 0 0 0
Application158120
Specific practical training000
Field activities000
Study Hours Out of Class (Preliminary work, reinforcement, ect)000
Presentation / Seminar Preparation000
Project000
Homework assignment000
Midterms (Study duration)000
Final Exam (Study duration) 000
Total Workload158120

Matrix Of The Course Learning Outcomes Versus Program Outcomes

D.9. Key Learning OutcomesContrubition level*
12345
1. PO1. Possesses the theoretical and practical knowledge required in Electrical and Electronics Engineering discipline.     X
2. PO2. Utilizes his/her theoretical and practical knowledge in the fields of mathematics, science and electrical and electronics engineering towards finding engineering solutions.  X  
3. PO3. Determines and defines a problem in electrical and electronics engineering, then models and solves it by applying the appropriate analytical or numerical methods.     X
4. PO4. Designs a system under realistic constraints using modern methods and tools.    X
5. PO5. Designs and performs an experiment, analyzes and interprets the results.  X  
6. PO6. Possesses the necessary qualifications to carry out interdisciplinary work either individually or as a team member.    X 
7. PO7. Accesses information, performs literature search, uses databases and other knowledge sources, follows developments in science and technology.  X  
8. PO8. Performs project planning and time management, plans his/her career development.    X
9. PO9. Possesses an advanced level of expertise in computer hardware and software, is proficient in using information and communication technologies.   X 
10. PO10. Is competent in oral or written communication; has advanced command of English.   X 
11. PO11. Has an awareness of his/her professional, ethical and social responsibilities.    X
12. PO12. Has an awareness of the universal impacts and social consequences of engineering solutions and applications; is well-informed about modern-day problems.    X
13. PO13. Is innovative and inquisitive; has a high level of professional self-esteem.    X

*1 Lowest, 2 Low, 3 Average, 4 High, 5 Highest

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