COURSE INFORMATION
| Module Name | Organic Chemistry | ||||
| Module level, if applicable | 1st year | ||||
| Code, if applicable | SFA-106 | ||||
| Semester (s) in which the module is taught | First semester | ||||
| Person responsible for the module | apt. Rochmy Istikharah, M.Si. | ||||
| Lecturer(s) | apt. Rochmy Istikharah, M.Si.
Dra. apt. Suparmi, M.Si. |
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| Language | English- Indonesia | ||||
| Relation to curriculum | Compulsory course | ||||
| Types of teaching and learning | Class size | Attendance time (hours per week per semester) | Forms of active participation | Workload | |
| Teaching | 50 | 3 | Collaborative discussion | Lecture: 3 (hour) x 14 (meeting) | 52 |
| Problem Solving | Problem Solving | Preparation and follow up 5 (hour) x 14 (self-learning) | 70 | ||
| Total workload | 122 hour | ||||
| ECTS | 4.36 ECTS | ||||
| Credit points | 3 CU | ||||
| Requirements according to examination regulations | Minimum attendance at lectures is 75% (according to UII regulation). Final score is evaluated based on assignment and reports (30%), Discipline (10%), and exam (60%) | ||||
| Recommended prerequisites | – | ||||
| Related course | – | ||||
| Module objectives/intended learning | By the end of this course students should be able to:
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| Content | The course will cover:
Atomic structure and hybridization, types of bonds and interactions between compounds, stereochemistry, acid-base based on structure, physicochemical properties of compounds based on functional groups, substitution and tautomerism of keto-enol, macromolecular compounds, application of organic chemistry in pharmaceutical practice |
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| Study and examination requirements and forms of examination | Mid-term, Final term, quiz, assignment, and problem solving | ||||
| Media employed | Text books, slides (power points), and video | ||||
| Reading lists |
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REQUIREMENTS
| Requirements according to examination regulations | Minimum attendance at lectures is 75% (according to UII regulation). Final score is evaluated based on assignment and reports (30%), Discipline (10%), and exam (60%) |
| Recommended prerequisites | – |
| Related course | – |
| Study and examination requirements and forms of examination | Mid-term, Final term, quiz, assignment, and problem solving |
MODULE OBJECTIVES/INTENDED LEARNING
By the end of this course students should be able to:
- Have an attitude of responsibility, dedication, honesty and discipline in attending lectures and doing assignments or quizzes synchronously or asynchronously.
- Explain atomic structure, bonds and isomerism; Acid-base; Hydrocarbons; Aromatic compounds; Stereoisomer; Alkyl halides and substitution-elimination reactions; Alcohol, phenol and thiol; Ether and epoxide
- Explain aldehyde and ketones; Carboxylate compounds and their derivatives; Carbohydrate; Lipids and soaps; Amino acids, peptides and proteins; Nucleotides and nucleic acids
- Analyze physicochemical properties based on functional groups and apply organic chemistry theory in pharmaceutical practice
CONTENT
The course will cover:
Atomic structure and hybridization, types of bonds and interactions between compounds, stereochemistry, acid-base based on structure, physicochemical properties of compounds based on functional groups, substitution and tautomerism of keto-enol, macromolecular compounds, application of organic chemistry in pharmaceutical practice
MEDIA EMPLOYED
Text books, slides (power points), and video
READING LISTS
- Chang, R., 2010, Chemistry Tenth Edition, The McGraw-Hill Companies, Inc, New York
- Bruice, P.Y., 2011, Organic Chemistry 6th Edition, Prentice Hall, Boston.
- Hart, D. J., Hadad, C. M., Craine, L. E., Hart, H., 2012, Organic Chemistry :Short Course 13th Edition, Brooks/Cole, California.
- Winter A. 2008. Organic Chemistry I Workbook for Dummies. Wiley Publishing Inc. Canada
- Dewick PM. 2006. Essentials of Organic Chemistry for students of pharmacy, medicinal chemistry and biological chemistry. John Wiley and Sons Ltd. England