Mandatory / Class: 1st / Organic chemistry / CH 122

Teaching scheme: 2 hours lecture per week Credits: 6

Course description

Is an introduction to organic chemistry, focusing primarily on the basic principles to understand the structure and reactivity of organic molecules. Emphasis is on substitution and elimination reactions and chemistry of the carbonyl group. The course also provides an introduction to the chemistry of aromatic compounds.

Objective

• To impart the basic concepts of organic chemistry

• To develop understanding about concepts on organic reactions for analysis of unit

processes

Specific learning outcome

The mechanisms can be described in terms of electron shifts, Radical substitution vice versa of alkanes. The physical properties will be explained in terms of the intermolecular forces.

NO / Topics / Hours
1 / Introduction for Hydrocarbons / 2
2 / electronic orbitals of carbon compounds, saturated hydrocarbon compound ,unsaturated compounds,aromatic compounds cyclic compound / 10
3 / cracking / 4
4 / Featured reactions: oxidation and combustion, added, replacement, nitrification halogenated. The Grignard reagent Friedel-Craft, Simon Smith, Swartz, polymerization / 4
5 / Halides: Halogenation operations hydrocarbon compound ways ionic or free radicals, added, replacement / 4
6 / Alcohols and phenols: hydrolysis processes for halides / 6
7 / Ethers: Williamson, operations, replacement / 4
8 / aldehyde and ketones / 6
9 / Featured reactions / 4
10 / Carboxylic acids and important derivatives / 4
11 / Featured reactions to form organic salts, esters, amino acids, amides / 6
12 / Amines and some important derivatives / 6

Percentage of change: 20%

Text Book:

Finar, Organic Chemistry, Vol. I and II, ELBS

References:

  1. Morrison & Boyd, Organic Chemistry, Prentice-Hall of India-
  2. Bahl&Bahl, Advanced Organic Chemistry, S. Chand
  3. Sony, P.L., Organic Chemistry, S. Chand

Grading

No. / Assessment / Number / % each / % total / Dates
Theoretical
1 / Homework (HW), Quizzes(Q) / 5
2 / TEST 1 / 1 / 7.5 % / 7.5
3 / TEST 2 / 1 / 7.5 % / 7.5
4 / TEST 3 / 1 / 7.5 % / 7.5
5 / TEST 4 / 1 / 7.5 % / 7.5
6 / Final Exam (F) / 1 / 50 % / 50
Theoretical Total / 85
Practical
Report for all Experiences / 5 % / 5
TEST 1 / 2.5 % / 2.5
TEST 2 / 2.5 % / 2.5
Final Exam / 5 % / 5
Practical Total / 15
Overall Total ( Theoretical + Practical) / 100

1-For Laboratory

Internal Continuous Assessment (Maximum Marks-10)

60%-Laboratory practical and record

30%- Test/s

10%- Regularity in the class

End Semester Examination (Maximum Marks-5)

Procedure, conducting tutorials, results, tabulation, and inference

2- For Theory Subjects

Internal Continuous Assessment (Maximum Marks-35)

70% - Tests (minimum 4)

20 % - Assignments (minimum 2) such as homework, problem solving, group discussions, quiz, seminar, term-project, software exercises, etc.

10% - Regularity in the class

TU Examination Pattern (Maximum Marks-50)

PART A: Short answer questions (one/two sentences) 5 x 2 marks= 10 marks

All questions are compulsory. There should be at least one question from each module and not more than two questions from any module.

PART B: Analytical/Problem solving questions 4 x 5 marks= 20 marks

Candidates have to answer four questions out of six. There should be at least one question from each module and not more than two questions from any module.

PART C: Descriptive/Analytical/Problem solving questions 2 x 10 marks= 20 marks

Two questions from each module with choice to answer one question.