ISTANBUL OKAN UNIVERSITY INFORMATION PACKAGE / COURSE CATALOGUE
| Automotive Engineering (English) | |||||
| Bachelor | TR-NQF-HE: Level 6 | QF-EHEA: First Cycle | EQF-LLL: Level 6 | ||
General course introduction information
| Course Code: | CHN112 | ||||||||
| Course Name: | Basic Chinese II | ||||||||
| Course Semester: |
Spring |
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| Course Credits: |
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| Language of instruction: | EN | ||||||||
| Course Requisites: | |||||||||
| Does the Course Require Work Experience?: | No | ||||||||
| Type of course: | Foreign Language Elective | ||||||||
| Course Level: |
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| Mode of Delivery: | E-Learning | ||||||||
| Course Coordinator : | Ar.Gör. BUSE ÖZLEM GÜVEN | ||||||||
| Course Lecturer(s): |
Öğr.Gör. AYÇA ÇANAKÇILI |
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| Course Assistants: |
Course Objective and Content
| Course Objectives: | To enable students to construct and understand simple daily life sentences, to have basic knowledge and general culture about China. |
| Course Content: | birthdays, clokcs, simple place and direction expressions, expressions formed with the word "to have". |
Learning Outcomes
The students who have succeeded in this course;
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Lesson Plan
| Week | Subject | Related Preparation |
| 1) | My birthday is 9th of May (time expressions) | Unit 1 of part 2 of the book |
| 2) | My Birthday is 9th of May (Adjective phrases) | Unit 1 of part 2 of the book |
| 3) | Our lesson starts at 8.30 in the morning. (time-clock expressions) | Unit 2 of part 2 of the book |
| 4) | Our lesson starts at 8.30 in the morning (adverb complements) | Unit 2 of part 2 of the book |
| 5) | repetition | notebooks |
| 6) | Where is the bank? (direction expressions) | Unit 3 of part 2 of the book |
| 7) | Where is the bank? (direction names) | Unit 3 of part 2 of the book |
| 8) | There Is A Map Of China On The Wall (Use of the word "have") | Unit 4 of part 2 of the book |
| 9) | There Is A Map Of China On The Wall (direction names) | Unit 4 of part 2 of the book |
Sources
| Course Notes / Textbooks: | 成功之路 Başarının Yolu 起步篇 Başlangıç 1-1 |
| References: | Hocanın sisteme yükleyeceği kaynaklar |
Course-Program Learning Outcome Relationship
| Learning Outcomes | 1 |
2 |
3 |
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|---|---|---|---|---|---|---|---|---|---|---|---|
| Program Outcomes | |||||||||||
| 1) Sufficient knowledge in mathematics, science and engineering related to their branches; and the ability to apply theoretical and practical knowledge in these areas to model and solve engineering problems. | |||||||||||
| 2) The ability to identify, formulate, and solve complex engineering problems; selecting and applying appropriate analysis and modeling methods for this purpose. | |||||||||||
| 3) The ability to design a complex system, process, device or product under realistic constraints and conditions to meet specific requirements; the ability to apply modern design methods for this purpose. (Realistic constraints and conditions include such issues as economy, environmental issues, sustainability, manufacturability, ethics, health, safety, social and political issues, according to the nature of design.) | |||||||||||
| 4) Ability to develop, select and use modern techniques and tools necessary for engineering applications; ability to use information technologies effectively. | |||||||||||
| 5) Ability to design experiments, conduct experiments, collect data, analyze and interpret results to examine engineering problems or discipline-specific research topics. | |||||||||||
| 6) The ability to work effectively in disciplinary and multidisciplinary teams; individual work skill. | |||||||||||
| 7) Effective communication skills in Turkish oral and written communication; at least one foreign language knowledge; ability to write effective reports and understand written reports, to prepare design and production reports, to make effective presentations, to give and receive clear and understandable instructions. | |||||||||||
| 8) Awareness of the need for lifelong learning; access to knowledge, ability to follow developments in science and technology, and constant self-renewal. | |||||||||||
| 9) Conform to ethical principles, and standards of professional and ethical responsibility; be informed about the standards used in engineering applications. | |||||||||||
| 10) Awareness of applications in business, such as project management, risk management and change management; awareness of entrepreneurship, and innovation; information about sustainable development. | |||||||||||
| 11) Information about the universal and social health, environmental and safety effects of engineering applications and the ways in which contemporary problems are reflected in the engineering field; awareness of the legal consequences of engineering solutions. | |||||||||||
| 12) Knowledge on advanced calculus, including differential equations applicable to automotive engineering; familiarity with statistics and linear algebra; knowledge on chemistry, calculus-based physics, dynamics, structural mechanics, structure and properties of materials, fluid dynamics, heat transfer, manufacturing processes, electronics and control, design of vehicle elements, vehicle dynamics, vehicle power train systems, automotive related regulations and vehicle validation/verification tests; ability to integrate and apply this knowledge to solve multidisciplinary automotive problems; ability to apply theoretical, experimental and simulation methods and, computer aided design techniques in the field of automotive engineering; ability to work in the field of vehicle design and manufacturing. | |||||||||||
Course - Learning Outcome Relationship
| No Effect | 1 Lowest | 2 Low | 3 Average | 4 High | 5 Highest |
| Program Outcomes | Level of Contribution | |
| 1) | Sufficient knowledge in mathematics, science and engineering related to their branches; and the ability to apply theoretical and practical knowledge in these areas to model and solve engineering problems. | |
| 2) | The ability to identify, formulate, and solve complex engineering problems; selecting and applying appropriate analysis and modeling methods for this purpose. | |
| 3) | The ability to design a complex system, process, device or product under realistic constraints and conditions to meet specific requirements; the ability to apply modern design methods for this purpose. (Realistic constraints and conditions include such issues as economy, environmental issues, sustainability, manufacturability, ethics, health, safety, social and political issues, according to the nature of design.) | |
| 4) | Ability to develop, select and use modern techniques and tools necessary for engineering applications; ability to use information technologies effectively. | |
| 5) | Ability to design experiments, conduct experiments, collect data, analyze and interpret results to examine engineering problems or discipline-specific research topics. | |
| 6) | The ability to work effectively in disciplinary and multidisciplinary teams; individual work skill. | |
| 7) | Effective communication skills in Turkish oral and written communication; at least one foreign language knowledge; ability to write effective reports and understand written reports, to prepare design and production reports, to make effective presentations, to give and receive clear and understandable instructions. | |
| 8) | Awareness of the need for lifelong learning; access to knowledge, ability to follow developments in science and technology, and constant self-renewal. | |
| 9) | Conform to ethical principles, and standards of professional and ethical responsibility; be informed about the standards used in engineering applications. | |
| 10) | Awareness of applications in business, such as project management, risk management and change management; awareness of entrepreneurship, and innovation; information about sustainable development. | |
| 11) | Information about the universal and social health, environmental and safety effects of engineering applications and the ways in which contemporary problems are reflected in the engineering field; awareness of the legal consequences of engineering solutions. | |
| 12) | Knowledge on advanced calculus, including differential equations applicable to automotive engineering; familiarity with statistics and linear algebra; knowledge on chemistry, calculus-based physics, dynamics, structural mechanics, structure and properties of materials, fluid dynamics, heat transfer, manufacturing processes, electronics and control, design of vehicle elements, vehicle dynamics, vehicle power train systems, automotive related regulations and vehicle validation/verification tests; ability to integrate and apply this knowledge to solve multidisciplinary automotive problems; ability to apply theoretical, experimental and simulation methods and, computer aided design techniques in the field of automotive engineering; ability to work in the field of vehicle design and manufacturing. |
Learning Activity and Teaching Methods
| Expression | |
| Brainstorming/ Six tihnking hats | |
| Lesson | |
| Reading | |
| Q&A / Discussion | |
| Case Study | |
| Web Based Learning |
Assessment & Grading Methods and Criteria
| Written Exam (Open-ended questions, multiple choice, true-false, matching, fill in the blanks, sequencing) | |
| Oral Examination | |
| Application |
Assessment & Grading
| Semester Requirements | Number of Activities | Level of Contribution |
| Attendance | 4 | % 10 |
| Quizzes | 2 | % 30 |
| Midterms | 1 | % 30 |
| Final | 1 | % 30 |
| total | % 100 | |
| PERCENTAGE OF SEMESTER WORK | % 70 | |
| PERCENTAGE OF FINAL WORK | % 30 | |
| total | % 100 | |
Workload and ECTS Credit Grading
| Activities | Number of Activities | Duration (Hours) | Workload |
| Course Hours | 28 | 2 | 56 |
| Application | 14 | 2 | 28 |
| Presentations / Seminar | 2 | 1 | 2 |
| Homework Assignments | 4 | 2 | 8 |
| Quizzes | 2 | 4 | 8 |
| Midterms | 1 | 2 | 2 |
| Final | 1 | 2 | 2 |
| Total Workload | 106 | ||