Industrial Engineering (English) | |||||
Bachelor | TR-NQF-HE: Level 6 | QF-EHEA: First Cycle | EQF-LLL: Level 6 |
Course Code: | ACCA306 | ||||||||
Course Name: | Cost Accounting | ||||||||
Course Semester: | Fall | ||||||||
Course Credits: |
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Language of instruction: | EN | ||||||||
Course Requisites: | |||||||||
Does the Course Require Work Experience?: | No | ||||||||
Type of course: | Compulsory | ||||||||
Course Level: |
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Mode of Delivery: | Face to face | ||||||||
Course Coordinator : | Dr.Öğr.Üyesi ALİNA TARAN | ||||||||
Course Lecturer(s): |
GÖKTUĞ DUYAR Öğr.Gör. B.Öğretim Elemanı Dr.Öğr.Üyesi İREM BATIBAY TÜNAYDIN |
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Course Assistants: |
Course Objectives: | The aims of this class are to enable an understanding of cost system, to have knowledge of basic concepts related to cost accounting, cost classification, cost factors used in enterprises during production, costs and cost allocation methods to determine the location. |
Course Content: | Cost and costing factors; cost accounting and recording order; determination of product costing; order cost method; process costing; activity based costing method and its accounting; full costing, normal costing and variable costing methods; standard costing methods; case studies and accounting. |
The students who have succeeded in this course;
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Week | Subject | Related Preparation |
1) | • Course content • Basic concepts of cost accounting | - |
2) | • Classification of costs • Basic Cost Management Concepts • Cost Drivers, Cost Pools, and Cost Objects • Cost Concepts for Product and Service Costing | - |
3) | • Cost accounting record systems • Cost Assignment and Cost Allocation: Direct and Indirect Costs • Direct and Indirect Materials Costs • Direct and Indirect Labor Costs • Other Indirect Costs | - |
4) | • Cost Allocation methods • Job Costing • The strategic role of job costing • Actual, Normal, and Standard Costing and the use of a predetermined overhead rate | - |
5) | • Job Costing • The strategic role of job costing • Actual, Normal, and Standard Costing and the use of a predetermined overhead rate | - |
6) | • Process Costing • Strategic Role of Process Costing • Equivalent units • Flow of Costs in a Process Costing | - |
7) | • Management decisions and cost analysis • Activity-Based Costing (ABC) • Steps in ABC Costing • Activity-Based management (ABM) • Customer-Profitability Analysis | - |
8) | • MIDTERM EXAM | - |
9) | • Management decisions and cost analysis • Activity-Based Costing (ABC) • Steps in ABC Costing • Activity-Based management (ABM) • Customer-Profitability Analysis | - |
10) | • Inventory costing methods • Managing the cost of quality | - |
11) | • The problem of wastage and defective products in cost calculations | - |
12) | • Cost of capacity • Used and unused resources | - |
13) | • Review of the semester | - |
14) | • Review of the semester | - |
Course Notes / Textbooks: | Veyis Naci Tanış, Hasan Özyapıcı (2023), COST ACCOUNTİNG AND MANAGEMENT ACCOUNTİNG, Karahan Kitabevi |
References: | Veyis Naci Tanış, Hasan Özyapıcı (2023), COST ACCOUNTİNG AND MANAGEMENT ACCOUNTİNG, Karahan Kitabevi |
Learning Outcomes | 1 |
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Program Outcomes | ||||||||||
1) Adequate knowledge in mathematics, science and engineering subjects pertaining to the relevant discipline; ability to use theoretical and applied information in these areas to model and solve engineering problems. | ||||||||||
2) Ability to identify, formulate, and solve complex engineering problems; ability to select and apply proper analysis and modelling methods for this purpose. | ||||||||||
3) Ability to design a complex system, process, device or product under realistic constraints and conditions, in such a way so as to meet the desired result; ability to apply modern design methods for this purpose. (Realistic constraints and conditions may include factors such as economic and environmental issues, sustainability, manufacturability, ethics, health, safety issues, and social and political issues according to the nature of the design.) | ||||||||||
4) Ability to devise, select, and use modern techniques and tools needed for engineering practice; ability to employ information technologies effectively. | ||||||||||
5) Ability to design and conduct experiments, gather data, analyse and interpret results for investigating engineering problems. | ||||||||||
6) Ability to work efficiently in intra-disciplinary and multi-disciplinary teams; ability to work individually. | ||||||||||
7) Ability to communicate effectively i Turkish, both orally and in writing; knowledge of a minimum of one foreign language. | ||||||||||
8) Recognition of the need for lifelong learning; ability to access information, to follow developments in science and technology, and to continue to educate him/herself. | ||||||||||
9) Awareness of professional and ethical responsibility. | ||||||||||
10) Information about business life practices such as project management, risk management, and change management; awareness of entrepreneurship, innovation, and sustainable development. | ||||||||||
11) Knowledge about contemporary issues and the global and societal effects of engineering practices on health, environment, and safety; awareness of the legal consequences of engineering solutions. |
No Effect | 1 Lowest | 2 Low | 3 Average | 4 High | 5 Highest |
Program Outcomes | Level of Contribution | |
1) | Adequate knowledge in mathematics, science and engineering subjects pertaining to the relevant discipline; ability to use theoretical and applied information in these areas to model and solve engineering problems. | |
2) | Ability to identify, formulate, and solve complex engineering problems; ability to select and apply proper analysis and modelling methods for this purpose. | |
3) | Ability to design a complex system, process, device or product under realistic constraints and conditions, in such a way so as to meet the desired result; ability to apply modern design methods for this purpose. (Realistic constraints and conditions may include factors such as economic and environmental issues, sustainability, manufacturability, ethics, health, safety issues, and social and political issues according to the nature of the design.) | |
4) | Ability to devise, select, and use modern techniques and tools needed for engineering practice; ability to employ information technologies effectively. | |
5) | Ability to design and conduct experiments, gather data, analyse and interpret results for investigating engineering problems. | |
6) | Ability to work efficiently in intra-disciplinary and multi-disciplinary teams; ability to work individually. | |
7) | Ability to communicate effectively i Turkish, both orally and in writing; knowledge of a minimum of one foreign language. | |
8) | Recognition of the need for lifelong learning; ability to access information, to follow developments in science and technology, and to continue to educate him/herself. | |
9) | Awareness of professional and ethical responsibility. | |
10) | Information about business life practices such as project management, risk management, and change management; awareness of entrepreneurship, innovation, and sustainable development. | |
11) | Knowledge about contemporary issues and the global and societal effects of engineering practices on health, environment, and safety; awareness of the legal consequences of engineering solutions. |
Expression | |
Lesson | |
Reading | |
Homework | |
Problem Solving | |
Project preparation |
Written Exam (Open-ended questions, multiple choice, true-false, matching, fill in the blanks, sequencing) | |
Presentation |
Semester Requirements | Number of Activities | Level of Contribution |
Quizzes | 2 | % 20 |
Presentation | 1 | % 10 |
Midterms | 1 | % 35 |
Final | 1 | % 35 |
total | % 100 | |
PERCENTAGE OF SEMESTER WORK | % 65 | |
PERCENTAGE OF FINAL WORK | % 35 | |
total | % 100 |
Activities | Number of Activities | Workload |
Course Hours | 14 | 42 |
Study Hours Out of Class | 6 | 12 |
Presentations / Seminar | 6 | 18 |
Quizzes | 1 | 3 |
Midterms | 11 | 39 |
Final | 15 | 59 |
Total Workload | 173 |