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CHEMISTRY LABORATORY
Course Objectives:
This course will enable the students to –
- make the students understand the core concepts of green synthesis.
- provide the knowledge about various spectral techniques.
- develop quantitative skills for different analytical purposes.
Course Outcomes (COs):
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Course Outcomes |
Teaching Learning Strategies |
Assessment Strategies |
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On completion of this course, the students will be able to – CO74: learn the use of green chemistry principles and processes in laboratory reactions as a benign approach. CO75: compare the advantages of green procedures over conventional synthesis. CO76: assign structures to simple molecules on the basis of infra-red and nuclear magnetic resonance spectroscopy. CO77: estimate the different functional groups i.e. hydroxyl (monohydric, dihydric, trihydric and phenols) and amino by different methods. CO78: estimate the saponification value of different saturated and unsaturated oil. |
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Theoretical background of Green Chemistry 6 Hrs
History, need and goal, green chemistry and sustainability and background of green chemistry.
Twelve basic principles of green chemistry with their explanation and examples
Synthesis (Green /Conventional) 30 Hrs
a) Aromatic Electrophilic Substitution
i) Acetylation – Acetylation of aniline/salicylic acid.
ii) Nitration - Preparation of 4-nitrosalicylic acid
iii) Bromination - Preparation of p-bromoacetanilide
b) Aldol Condensation:Synthesis of dibenzal propanone
c) Rearrangement: Benzil-Benzilic acid rearrangement
d) Pechmann Condensation for Coumarin synthesis: Clay catalysed solid state synthesis of 7-hydroxy -4- methyl coumarin
e) Diazotization/coupling: Preparation of methyl orange
Spectroscopy 16 Hrs
Interpretation of IR and NMR spectra of simple organic compounds (ethanol, 1-propanol, 2-propanol, methylethanoate, ethyl acetate,stilbene, ethyl acetate, propanone etc).
Quantitative Analysis 8 hrs
a) Estimation of glucose by Fehling’s /Benedict solution
b) Estimation of saponification value of the given oil.
- Vogel’s Textbook of Practical Organic Chemistry, Fifth Edition; B.S. Furniss, A.J. Hannaford, P.W.D. Smith, A.R. Tatchell; Pearson Education, New Delhi, 2003.
- Monograph on Green Chemistry- Laboratory Experiments- Laboratory Task Force Committee, DST
SUGGESTED READINGS:
- University Practical Chemistry, Second Edition; P.C. Kamboj, Vishal Publishing House,New Delhi; 2019.
e-RESOURCES:
- https://www.youtube.com/watch?v=oROSQnzSdZE
- https://www.tandfonline.com/doi/full/10.1080/17518253.2012.740078?cookieSet=1
Scheme of Examination
- The duration of examination will be 4 hrs.
- The following exercise will be set in the examination
Quiz based on the theoretical background of green chemistry 10 marks
Organic Synthesis 18 marks
Organic Estimation 16 marks
Spectral Analysis 14 marks
Viva 12 marks
Total 70 marks
- Organic Synthesis:
The exercise carries 18 marks. Organic preparation will be allotted by lottery. The yield, crystallization and recording of melting point will be given due consideration while awarding marks.
- Organic Estimation:
The exercise carries 16 marks. Four marks shall be awarded for preparatory work, setting an apparatus, neat and methodical work. Any modifications will not involve any departure from the basic principles over which experiments are prescribed in the syllabus.
Twelve marks will be awarded for correct observation, use of correct formula, calculation and result within permissible limits.
- Theory and procedure 3 marks
- Correct observation and proper recording 3 marks
- Use of correct formula and calculation 3 marks
- Result 3 marks
The permissible limit will be decided by the examiner as it varies with the nature of experiment.
- Spectral Analysis: Two spectra (Eight marks each) (one IR and one NMR) will be given experiment.
Viva: Oral questions shall generally be asked over the work assigned to the candidate. The purpose is to find out as to what extent the candidate has understood the basic principles of chemistry.
