Technical Chemistry Syllabus for VTU BE/B.Tech Chemical Engineering third sem complete syllabus covered here. This will help you understand complete curriculum along with details such as exam marks and duration. The details are as follows.
| Subject Code | 15CH36 | IA Marks | 20 |
|---|---|---|---|
| Number of Lecture Hours/Week | 03 | Exam Marks | 80 |
| Total Number of Lecture Hours | 50 | Exam Hours | 3 |
CREDITS – 04
COURSE OBJECTIVES: The students will
- Study the basic of bond formation Types bonding Anti bonding
- Study of Colligative properties; determine the effects of solutes on boiling point, freezing point, and osmotic pressure and to calculate the molecular weight of the unknown solute using freezing point depression
- 3 Study of isomerism nomenclature properties of isomers
- Study of Coordinate compounds
- Study of Heterocyclic compounds
- Study of reactions & mechanisms
| Content | Contact Hours | Blooms Taxonomy |
|---|---|---|
| Module -1 | _ | |
| BONDING: Atomic and Molecular orbital theory: Theory of bonding, Types of Bonds, Hydrogen bond with discussion on interaction between two atoms such as exchange of electron, screen effect of electrons, ionic character of H-OH bond. Anti Bonding, Band Theory of metals Theory of Resonance, Structural stability, structure of carbonate ion and benzene, Importance of resonance compounds | 10 Hours | L-1, L-2, L- 3 |
| Module -2 | _ | |
| 10 Hours | L-1, L-2, L- 3 | |
| Module -3 | _ | |
| ISOMERISM: Definition, Types Conformational isomerism in alkanes, free rotation about carbon- carbon single bond, conformation of ethane, propane n, butane , relative stability of different conformations. Optical isomers – Isomer number & tetrahedral carbon atom chirality, optical isomerism with one asymmetric carbon atom, Polarimeter, Specific rotation, Enantiomerism R & S Nomenclature. Geometrical isomerism – Definition, conditions for geometrical isomerism, cis-trans & E-Z nomenclature, physical & chemical properties of geometrical isomerism COORDINATION CHEMISTRY: Werner’s theory, Nomenclature, effective atomic number, stability of complex ions, factors affecting the stability, stereochemistry of co-ordination compounds. Isomerism of co-ordination compounds. Importance of coordination compounds. | 10 Hours | L-1, L-2, L- 3 L-1, L-2, L- 3 |
| Module -4 | _ | |
| HETEROCYCLIC COMPOUNDS: Nomenclature Classification Structure, Preperation Properties & Reactions of Heterocyclic, Anagues of Cyclopropane Cypclo butane Cyclopentadiene Heterocyclic’s one or more hetero atoms Azetidenes Furans Pyratidine, Pyroles diazines Fused heterocyclics Heterocyclics in Dyes Medicines Natural products | 10 Hours | L-1, L-2, L- 3 |
| Module -5 | _ | |
| REACTIONS & MECHANISMS: Concept of Steady states, reactive intermediates, Carbanions, Carbocations, Inductive and resonance effects. Mechanism of nucleophilic substitution (SN1 and s2) in alkyl halides. Mechanism of elimination reactions (E1 and E2). Mechanism of electrophilic substitution in benzene, nitration, sulphonation, halogenation. Friedel-crafts alkyl and acylation reactions. Electronic interpretation of orienting influence of substituents in aromatic electrophilic of toluene, chlorobenzene, phenol and nitrobenzene. Solvents effects | 10 Hours | L-1, L-2, L- 3 |
COURSE OUTCOMES: On successful completion of this course students will be able to
- Explain the bond theory Resonance theory H-OH Bonds
- Explain the effects of solutes on boiling point, freezing point, and osmotic pressure and to calculate the molecular weight of the unknown solute using freezing point depression.Explain the structure and bonding of coordination compounds with proper reason of deviation, isomerism prevailing
- Write reaction mechanisms in various types of reactions.
GRADUATE ATTRIBUTES:
- Problem analysis.
- Design/development of solutions.
QUESTION PAPER PATTERN:
- The question paper will have ten questions. Each full is for 16 marks. There will be two full questions (with a maximum of four sub questions) from each module. Each full question will have sub questions covering all the topics under a module. The students will have to answer five full questions, selecting one full question from each module.
TEXT BOOKS:
- Arun Bahl and Bahl B.S., “A text book of Organic Chemistry”, 15th edn., Chand S. and Company, New Delhi, 1998
- Morrison B.R. and Boyd L.L., “Organic Chemistry”, 6th edn, ELBS, New Delhi, 1998
- Tiwari Melhotra and Vishnoi, “Organic Chemistry”, 7th edn., Chand S. and Company, New Delhi, 1996
REFERENCE BOOKS:
- Puri L.R. and Sharma B.R., “Physical Chemistry”, 14th edn., Chand S. and Company, New Delhi, 1998
- James Huheey, “Inorganic Chemistry”, 19th edn. Willey Publishers, New Delhi, 1997
- Dhone D. B., A Text Book of Plant Utilities, Nirali Publications.
For all other BE/B.Tech 3rd Sem Subject syllabus do follow VTU 3rd Sem BE / B.Tech Syllabus CBCS (2015-16) Scheme for Chemical Engineering Group.
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