4) Dari sintesis 1 gram asam salisilat didapat rendemen aspirin sebesar 0.85 gram atau 65,18% 5) Titik leleh asam aspirin hasil sintesis adalah 137 oC dengan galat 1,48% REFERENSI Fessenden,Ralph J & Fessenden,Joan S.1982.Kimia Organik Edisi Ketiga Jilid 2.
Kimia Organik Semester Gasal 2014/2015 Tri Widayatno 71 Background This module is designed to provide the ChemEng Student to understand important concepts and principles of organic chemistry. You will learn about the physical shape, stereochemistry and reactivity of common organic molecules. You will learn about reaction mechanisms as a tool for understanding general processes rather than simply memorising specific conversions.
Some industrial routes to commercially important organic molecules will be presented. By the end of this module you will be familiar with the basic types of reaction in which they participate, and the reactive intermediates which are involved Learning Outcome Setelah mengikuti perkuliahan ini mahasiswa dapat: 1. Memahami struktur dan ikatan dalam senyawa organik, Struktur Atom, Senyawa Ion, Kovalen, rumus senyawa organik, gugus fungsional, struktur isomer, dan ikatan hidrogen. Mampu memprediksikan sifat-sifatnya berdasar struktur molekul. Memahami sifat-sifat fisik dari alkana, alkena, alkuna, alkil halida, alkohol, benzena, aturan penamaan (nomenklatur), jenis ikatan dan perubahan bentuk atau struktur, serta reaksi yang dapat terjadi. Memahami mekanisme dan sifat-sifat reaksi substitusi, addisi dan eliminasi pada senyawa organik. Memahami manfaat dan rekayasa penggunaan reaksi-reaksi tersebut pada industri.
Memahami produk-produk turunan senyawa organik dari rekayasa reaksi substitusi, addisi dan eliminasi senyawa organik. Required textbook. Allinger, N.L. Et.al., 1976, Organic Chemistry, 2nd ed., Wort Publisher Inc., New York. Fessenden, R.
Fessenden, 1986, Organic Chemistry, 3rd. Ed., Wadsworth Inc., Belmont, California. Raymond, M. Et al, 1990, Guidebook to Organic Synthesis, 2nd. Ed., John Wiley and Sons Inc., New York. Stuart, Warren, 1982, Organic Synthesis: The Disconnection Approach, John Wiley & Sons, New York. Peter, Sykes, 1989, Penuntun Mekanisme Reaksi Kimia Organik, edisi VI, Penerjemah Anton J.
Hartomo, Gramedia, Jakarta. Class Information and Announcement. Announcements regarding schedule changes or other developments will be made in class at the earliest possible time. Otherwise, Information will be distributed through Class coordinator or via e-mail. Coordinator: – Class A: Habib Abdul Aziz – Class B: Zahrial Rizaldie – Class C: Harland Lectures. Class C: Wednesday, 9:30 – 11:10 am, Room F2.5.
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Class A Thursday, 9:30 – 11:10 am, Room F2.5. Class B Thursday, 12:30 – 14:00 pm, Room H4.7. Assumption: you are adult students Attendance in lecture is expected Do not ask me to re-lecture material you missed. Regardless of your excuse for missing class you made a choice not to attend and you are responsible for the material you missed. Lectures - Agreement.
Please refrain from any disruptive activities in the class, which might affect other students. This includes reading newspapers, solving crossword puzzles, texting, emailing, using cell phones or iPods, browsing the internet, playing games, talking, etc. In addition to the student using the laptop, students around the laptop user also have lower attention on the content in the lecture. So laptops may not be used for email, Facebook and other activities not directly related to the lecture.
Your classmates are allowed and encouraged to ask you to discontinue distracting behavior. To help promote a good learning environment for all, please be respectful in your behavior towards your fellow students and your lecturer.
Tutorials. Tutorials may be given to students if required. Tutorials will be used to discuss questions, end‐of‐chapter problems, and material from the lectures or text.
Quiz may be given during tutorial session Homeworks. Homework assignments will be given approximately weekly throughout the semester. The homework points to be added to your grade will be determined by calculating the percentage of the assigned problems for which you have received credit. If you have done all the problems, you will receive 100 homework points. Doing half of the problems will get you 50 points, and so on. Please note that the homework counts for 25% of your grade, so if you don’t do any of the problems, it will probably cost you a letter grade! More importantly, if you are not working problems regularly you are unlikely to be prepared to do well on exams.
Exams. There will be 2 exams – Mid semester exam, account for 30% – Final Exam, account for 40% There will be no regularly scheduled make‐up exams. If you have a valid, serious reason, or a university-approved absence to miss one of the exams, you need to immediately contact me to discuss your situation. If possible, you should discuss your absence with me before the exam is given. You will be required to provide suitable documentation that your absence should be excused according to University rules and regulations Grading. Attendance: 5%.
Mid-Semester Exam: 30%. Final Exam: 40%. Homeworks/Assignments: 25% A≥77, 77 AB ≥70, 70 B ≥ 63, 63 BC ≥ 56, 56 C ≥ 50, 50 D ≥ 35, 35 E ≥ 0 Special Consideration.
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Grades are earned. Grades are not awarded Grades cannot be negotiated.
Grades cannot be influenced by factors such as: I like you You like me (rare circumstance) I feel sorry for you You are a nice person in good standing with the university. You will lose a scholarship A previously excellent GPA will be ruined You will not graduate on time!