B.Sc CHEMISTRY (CBCS) FIRST YEAR

                                          SEMESTER -II (W.E.F. 2023-24)

COURSE:3 -GENERAL AND INORGANIC CHEMISTRY

   Course Outcomes:  At the end of the course the student will be able to-

1. Understand the structure of atom and the arrangement of elements in the periodic table .
2. Understand the nature and properties of ionic compounds.
3. Identify the structure of a given inorganic compound.
4. Explain the existence of special type of compounds through weak chemical forces.
5. Define acids and bases and predict the nature of salts.

SEMESTER -II

COURSE:3 -PRACTICAL -GENERAL AND INORGANIC CHEMISTRY

     Skill Outcomes:  At the end of the course, the student will be able to-

1. Unread the basic concepts of qualitative analysis of simple salt.
2. Use glassware , equipment and chemicals and follow experimental procedure in the laboratory.
3. Apply the concepts of common ion effect and solubility product and concepts related to qualitative analysis.

SEMESTER -II

COURSE: 4 - INORGANIC CHEMISTRY- I

      Course Outcomes:  At the end of the course the student will be able to-

1. Understand the basic concepts of p-block elements.
2. Explain the concepts of d-block elements.
3. Distinguish lanthanides and   actinides
4. Describe the importance of the radioactivity.

SEMESTER -II

COURSE: 4 -PRACTICAL - INORGANIC CHEMISTRY- I

Skill Outcomes:  At the end of the course, the student will be able to-

1. Understand the basic concepts of inorganic preparations.
2. Use glassware , equipment and chemicals and follow experimental procedure in the laboratory.
3. Apply the properties of various elements for the preparation of inorganic compounds .

SEMESTER -III

COURSE: 5 – FUNDAMENTALS IN ORGANIC CHEMISTRY

Course Outcomes:  At the end of the course the student will be able to-

1. Understand and explain the deferential behavior of organic compounds based on fundamental concepts learnt.
2. Formulate the mechanism of organic reactions by recalling and correlating the fundamental properties of the reactants involved.
3. Learn and identify many organic reaction mechanisms.
4. Correlate and describe the stereo chemical properties of organic compounds and reactions.

SEMESTER -III

COURSE: 5 – PRACTICAL-FUNDAMENTALS IN ORGANIC CHEMISTRY

      Skill Outcomes:  At the end of the course, the student will be able to-

1. Use glassware , equipment and chemicals and follow experimental procedure in the laboratory.
2. Determine melting and boiling points of organic compounds.
3. Understand the application of concepts of different organic reactions studied in theory part of organic chemistry.

SEMESTER -III

COURSE: 6 – ORGANIC CHEMISTRY

        Course Outcomes:  At the end of the course the student will be able to-

1. Understand the concept of SN1  and  SN2  and SNi Mechanisms.
2. Describe the reactivity of alcohols and phenols.
3. Achieve the skill required to purpose various mechanisms.
4. Apply the concepts for synthesizing  various oxygen containing organic compounds.
5. Interconvert the monosaccharides.

SEMESTER -III

COURSE: 6 – PRACTICAL- ORGANIC CHEMISTRY

      Skill Outcomes:  On the completion of the course the student will be able to do the following :

1. How to use glassware, equipment and chemicals and follow experimental procedure in the laboratory.
2. How to use calculate limiting reagent, theoretical yield and percent yield.
3. How perform common laboratory techniques including reflux, distillation, recrystallization and vacuum filtration.
4. How to critically evaluate data collected to determine the identity, purity and percent yield of products and to summarize findings in writing in a clear and concise manner.

SEMESTER -III

COURSE: 7– PHYSICAL CHEMISTRY - I

     Course Outcomes:  At the end of the course the student will be able to-

1. Understand the ideal and non-ideal behavior of solutions.
2. Determine the molecular mass of non-volatile solutions.
3. Discuss the basic concepts of photochemistry.
4. Apply the principles of electrical conductivity.
5. Explain the importance  of  emf and its applications.

SEMESTER -III

COURSE: 7–PRACTICAL- PHYSICAL  CHEMISTRY – I

   Skill Outcomes:  At the end of the course, the student will be able to-

1. Use glassware, equipment and chemicals and follow experimental procedure in the laboratory.
2. Understand and apply the concepts of solutions practically.
3. Apply concepts of electro chemistry in experiments.

SEMESTER -III

COURSE: 8– INORGANIC AND PHYSICAL  CHEMISTRY 

      Course Outcomes:  At the end of the course the student will be able to-

1. Apply IUPAC Nomenclature for coordination compounds.
2. Understand the various theories, structure and stereo chemistry of coordination compounds.
3. Explain the reaction mechanism in complexes.
4. Apply the 18 electron rule.
5. Discuss the basic concepts of  thermodynamics.

SEMESTER -III

COURSE: 8– PRACTICAL-INORGANIC AND PHYSICAL  CHEMISTRY

     Skill Outcomes:  At the end of the course, the student will be able to-

1. Understand the basic concepts of qualitative analysis of inorganic mixture.
2. Use glassware, equipment and chemicals and follow experimental procedure in the laboratory.
3. Apply the concepts of common ion effect, solubility product and concepts related to qualitative analysis.

SEMESTER -IV

COURSE: 9– PHYSICAL  CHEMISTRY - II

   Course Outcomes:  At the end of the course the student will be able to-

1. Explain the difference between solids, liquids and gases in terms of intermolecular interactions.
2. Differentiate ideal and real gases.
3. Discuss the basic concepts of  two component system.
4. Apply the concept of  adsorption.
5. Understand the basic concepts of  crystallography.

SEMESTER -IV

COURSE: 9– PRACTICAL- PHYSICAL  CHEMISTRY 

    Skill Outcomes:  At the end of the course, the student will be able to-

1. Use glassware, equipment and chemicals and follow experimental procedure in the laboratory.
2. Apply concepts of  surface chemistry in experiments.
3. Be familiar with the concepts & practical applications of surface tension and viscosity of liquids.

SEMESTER -IV

COURSE:10-GENERAL  AND PHYSICAL CHEMISTRY 

Course Outcomes:  At the end of the course the student will be able to-

1. Correlate and describe the stereochemical properties of organic compounds.
2. Explain the biological significance of various elements present in the human body.
3. Explain the concepts of ionic equilibrium for the qualitative and quantitative analysis.
4. Determine the order of a chemical reaction.
5. Describe the basic concepts of enzyme catalysis.

SEMESTER -IV

COURSE:10- PRACTICAL- GENERAL  AND PHYSICAL CHEMISTRY 

    Skill Outcomes:-  At the end of the course the student will be able to-

1. Use glassware, equipment and chemicals and follow experimental procedure in the laboratory.
2. Understand and explain the volumetric analysis based on fundamental concepts learnt in ionic equilibria.
3. Learn and identify the concepts of a standard solutions, primary and secondary standard.
4. Facilitate the learner to make solutions of various molar concentrations.

SEMESTER -IV

COURSE:11-NITROGEN CONTAINING ORGANIC COMPOUNDS AND SPECTROSCOPY

Course Outcomes:  At the end of the course the student will be able to-

1. Distinguish primary, secondary and tertiary amines and their properties.
2. Describe the preparation and properties of amino acids.
3. Explain the reactivity of nitro hydrocarbons.
4. Discuss hetero cyclic compounds with N,O and S.
5. Apply the concepts of UV and IR to ascertain the functional group in an organic compound.

SEMESTER -IV

COURSE:11-PRACTICAL -NITROGEN CONTAINING ORGANIC COMPOUNDS AND 

SPECTROSCOPY

    Skill Outcomes:-  At the end of the course the student will be able to-

1. Use glassware, equipment and chemicals and follow experimental procedure in the laboratory.
2. Calculate limiting reagent , theoretical yield and percent yield.
3. Engage in safe laboratory practices by handling laboratory glassware, equipment and chemical reagents appropriately .
4. Dispose of chemicals in a safe and responsible manner.
5. Perform common laboratory techniques including reflux, distillation, recrystallization, vacuum filtration.
6. Create and carry out work up and separation procedures.