2.1. Module Descriptions
Module Name Reaksi Senyawa Organik dan Mekanisme Module Level Undergraduate Programme
Code, if applicable - Sub-title, if
applicable
-
Courses, if applicable
-
Semester(s) in which the module is taught
5
Lecturer (s) Dr. Fera Kurniadewi, M. Si.
Language Bahasa Indonesia (Indonesian Language) Course
Classification
Compulsory Course
Compulsory Course / Elective Studies Teaching format/class hours per week during semester
3 lesson hours (50 minutes per hours)
Workload 3 hours of lessons, 16 weeks per semester Credit Points 3
Requirements Kimia Organik Dasar dan Stereokimia (Basic Organic Chemistry &
Stereochemistry)
Learning
goals/competencies
CPMK-1 Identify reactive intermediates in and their role in organic reactions
CPMK-2 Predicting the mechanism of nucleophilic substitution reactions and elimination reactions in aliphatic organic compounds
CPMK-3 Describe the mechanism of substitution reactions in aromatic compounds
CPMK-4 Describe the mechanism of addition reactions in unsaturated hydrocarbons
CPMK-5 Describe the mechanism of addition reactions in the C=O and C=N groups
CPMK-6 Apply various reactions to organic compounds based on the type of reactants, reagents, reaction conditions and factors that affect the reaction mechanism for the synthesis of simple organic compounds
Content 1. Classify reactive intermediates in organic reactions
2. Explain the factors that affect the stability of reactive intermediates 3. Analyzing the stability of intermediates based on their structure 4. Describe the difference between ionic reactions and free radicals
5. Describe the mechanism of nucleophilic substitution reactions in aliphatic compounds based on the reactive intermediates formed
6. Identify the factors that affect substitution reactions
7. Describe the mechanism of elimination reactions in organic compounds based on the reactive intermediates formed
8. Identify the factors that affect the elimination reaction
9. Design the synthesis of simple compounds involving substitution and elimination reactions in aliphatic compounds
10. Describe the mechanism of substitution reactions in aromatic compounds
11. Explain the factors that affect substitution reactions in aromatic compounds
12. Designing the reaction steps of polysubstituted aromatic compounds 13. Describe the mechanism of addition reactions in unsaturated
hydrocarbons
14. Identify factors that affect addition reactions
15. Predict the mechanism of the addition reaction based on the reaction products formed
16. Design the synthesis of simple compounds that involve addition reactions
17. Describe the mechanism of addition reactions in the C=O and C=N groups
18. Predict the mechanism of the addition reaction based on the reaction products formed
19. Designing the synthesis of simple compounds involving addition reactions in the C=O and C=N groups
20. Predict the product of the conjugate addition reaction
21. Determine the molecular structure of the cycloaddition reaction product based on known reagents
22. Determine the appropriate reagent / reagent for a known reaction product
23. Determine the appropriate reaction mechanism for an organic reaction 24. Explain the factors that affect a reaction for the synthesis of organic
compounds
Atribut Soft Skill Able to apply logical, critical, systematic, and innovative thinking in the context of the development or implementation of science and technology that pays attention to and applies humanities values in accordance with their field of expertise. Able to make appropriate decisions in the context of solving problems in their area of expertise, based on the results of analysis of formations and data.
Study/Exam achievements
a. Test
Mid-semester exams and end-of-semester exams b. Non-test
Performance appraisal (assessment of presentations in class discussions, participation in lectures)
Learning Methods Lectures, discussion, presentation, and duty
Forms of Media Laptop, Internet, LCD, Whiteboard, Zoom/Google Meet/Microsoft Teams, LMS
Literature Main Reference
1. Clayden, J., Greeves, N., Warren, S. 2012. Organic Chemistry, 2 nd edition . Oxford University Press
2. Solomons , T. W. G., Fryhle , C., Snyder , S. 2012. Organic Chemistry, 11 th edition . John Wiley and Sons Inc.
3. Fessenden
Notes -