Paper Name(Paper code)

Outcomes After completion of the course the student should be able to

SEMESTER I

CO 1: Understand the basic concepts of p-block elements.

CO 2 :To understand the concept of d-block, f-block elements and bonding between the metals

CO 3 :C To understand the compound from a molecular level to the crystal structure level

CO 4 :To understand the difference between liquid and gaseous state  in terms of inter molecular attractions.

CO 5 :To know about the different types of solutions and the electrical properties of ions

PRACTICAL

·  Understand the basic concepts of qualitative analysis of inorganic mixture.

·  Use glassware, equipment and chemicals and follow experimental procedures in the laboratory.

·  Apply the concepts of common ion effect, solubility product and concepts related to qualitative analysis.

CO 1 :To Understand  the fundamental concepts of organic compound of alkanes and cycloalkanes.

CO 2 : To recognise the basic properties and chemical behaviour of alkenes and alkynes

CO 3 : To understand the concept of Huckels rule to predict aromaticity and identify many organic reaction mechanisms

CO 4 :To understand the concept of adsorption, colloidal stability, emulsions and different types of bonds in chemical bonding and shapes and geometries of various molecules by VBT,MO theories and the concept of hard and soft acids, bases.

CO 5 :Learn and identify the stereo chemical properties of organic compounds and assigning R-S ,cis-trans and E-Z configurations to molecules.

PRACTICAL

· Use glassware, equipment and chemicals and follow experimental procedures in the laboratory.

· Understand explain the volumetric analysis based on fundamental concepts learnt in ionic equillibria.

· Learn and identify the concepts of standard solutions, primary and secondary standards.

· Facilitate the learner to make solutions of various molar concentrations. This may include: the concept of the mole; Converting moles to grams; Converting grams to moles; Defining concentration; Dilution of Solutions; Making different molar concentrations

SEMESTER III

CO 1 :Understand the preparation, properties and reactions of halo alkanes, halo arenes and oxygen containing functional groups.

CO 2 :To predict the products of the reactions of carbonyl compounds with different reagents.

CO 3 :To know the preparation, properties of carboxylic acids and identify their derivatives as esters, amides, acid halides and anhydrides.

CO 4 :To understand the electromagnetic spectrum and principles of spectroscopic methods such as NMR, IR, UV Visible.

CO 5 :  To know the application of spectroscopic knowledge for structural identification of simple organic molecules. their conservation

PRACTICAL

· How to use glassware, equipment and chemicals and follow experimental procedures in the laboratory.

· How to calculate limiting reagent, theoretical yield, and percent yield.

· How to engage in safe laboratory practices by handling laboratory glassware, equipment, and chemical reagents appropriately.

· How to dispose of chemicals in a safe and responsible manner

· How to perform common laboratory techniques including reflex, distillation, re-crystallization, vacuum filtration.

· How to create and carry out work up and separation procedures.

· 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 IV

CO 1 :To know the chemical bond and the theories that explain the electronic properties within organo metallic compounds.

CO 2 :To develop knowledge on chemical mechanism of carbohydrates.

CO 3 :To know the importance of amino acids in the synthesis of body proteins and to provide the introduction about Hetero cyclic chemistry of five and six membered rings.

CO 4 :To know the classification , structure and preparation of nitro hydrocarbons and amines .

CO 5 :To learn about laws of absorption of light energy, quantum efficiency and mechanism of photochemical reactions.

PRACTICAL

· Use glassware, equipment and chemicals and follow experimental procedures in the laboratory.

· Determine melting and boiling points of organic compounds.

· Understand the application of concepts of different organic reactions studied in theory part of organic chemistry.

CO 1 :To know the properties of coordination compounds and relative valency bond theory, Molecular orbital theory and hybridization.

CO 2 :To understand the basic concepts of mechanism of inorganic reactions including the substitution reaction of the ligands and importance and geo chemical effect on the distribution of various metals.

CO 3 :To know the basic definitions and terms in phase diagrams and predicting the equilibrium relations of the phases.

CO 4 :To understand the concept of electro chemical cells result in the conversion of chemical energy into electrical energy.

CO 5 :To identify reaction order and determining rate law of a chemical change based on experimental data.  

PRACTICAL

· Use glassware, equipment and chemicals and follow experimental procedures in the laboratory.

· Apply concepts of electro chemistry in experiments.

· Be familiar with electro analytical methods and techniques in analytical chemistry which study and analyse by measuring the potential (volts) and/or current (amperes) in an electro chemical cell containing the analyse.

SEMESTER V

CO 1 :To acquire knowledge on the basic concepts in different types of pericyclic reactions.

CO 2 :To understand the concept of Jablonski-diagram, Norrish type 1and type 2 reactions .

CO 3 :To understand the importance of retro synthesis in organic chemistry .

CO 4:  To understand the applications of different reactions in synthetic organic chemistry.

CO 4 :To identify the importance of reagents used in the synthesis of organic chemistry..

PRACTICAL

·  Perform the organic qualitative analysis for the detection of N, S and halogens using the
green procedure.

·   Learn the procedure for the separation of mixture famine acids using paper
Chromatography.

·   Prepare the TLC plates for TLC chromatography.

·  Acquire skills in conducting column chromatography for the separation of dyes in the given mixture

CO 1 :To identify the importance of mass spectrometry in the structural elucidation of organic compounds.

CO 2 :To acquire the knowledge on structural elucidation of organic compounds using IR,NMR and Mass spectral data.

CO 3 :  To acquire the knowledge on structural elucidation of organic compounds Phenyl acetylene, P- nitro aniline

CO 4 :  To understand about the concept of solvent extraction for the separation of organic compounds and various chromatographic methods

CO 5 :To understand about various chromatographic methods in the separation and identification of organic compounds.

PRACTICAL

·      Prepare acetanilide using the green synthesis.

·       Demonstrate the preparation of anazodye.

·       Acquire skills in the separation of organic compounds in the given mixture using solvent extraction

Outcomes

After completion of the course the student should be able to

CO4: Learn basics of group theory and its application in chemistry.
CO5: Understand the basic concepts of FORTRAN programming and its applications..

(CoF6 3- , Co(NH3)6 3+). And Walsh diagram for H2O molecule
CO3: Apply the knowledge and    understanding of Understand the Orgel and Tanabe-Sugano diagrams
for d1 –d 9 octahedral and tetrahedral transition metal complexes of 3d series to Newly prepared metal complexes
CO4: Develop interest in the areas of magnetic properties of transition and inner transitionmetal complexes – spin and orbital moments – quenching of orbital momentum by crystal Fields in complexes.

CO5: To understand the concept of Term symbols and Electronic spectra and Magnetic properties of
complexes.

To develop an insight into the preparation of inorganic complexes

To understand the process of preparation of inorganic complexes

To acquire skills in the preparation of inorganic complex

CO1: Acquire the knowledge of aliphatic nucleophilic substitution, neighbouring group mechanism by O,N,S and non classical carbonation. compound sand chemistry of natural products

CO2: Understand aliphatic electrophilic substitution reactions.

CO3 : To know about stereo chemistry and conformational analysis.
CO4: Develop interest in the areas of chemistry of heterocyclic compounds

CO5:  To Learn the chemistry of natural products – terpenoids, steroids and concept of Lipids.

To develop an insight into the preparation of organic compounds in various reactions.

To understand the process of preparation of organic through various reactions.

To acquire skills in the preparation of organic compounds, their separation, purification and
identification.

To maintain laboratory ethics, safety and cleanliness.

To Preparation and standardization of solutions

To have hands-on experience/practical knowledge in performing Physical-chemistry experiments.

To develop skills on handling instruments like conduct ometry and perform different types of acid-base titrations.

To plot accurate graphs of the desired scale for the calculations of Langmuirand Freundlich isotherms.

To Prepare the solution of the desired concentration and the desired volume in Cuprammoniumcation.

CO1 : Students will have the idea of wave function and understand the uncertainty relations

CO2 : Students will learn how to solve the Schrodinger Eq. rigorously for model systems

CO3 : Students will be able to understand and be able to explain the origin of quantized energy levels

CO4 : Students will learn to apply concepts from physics and methods from mathematics to derive and understand the properties of chemical systems that arise from quantum
mechanical models for the structure of atoms and molecules
CO5 : They will be able to understand and explain the differences between classical and quantum mechanics

CO5 : To understand the concept of Term symbols and Electronic spectra and Magnetic properties of complexes

To have hands-on experience/practical knowledge in Inorganic chemistry experiments.

To develop skills on estimations of analyte by volumetrically

To determine analyte by Gravimetrically.

To study the photochemical reactions

CO1 : Acquire the knowledge of aromaticity, aromatic nucleophilic substitution

CO2 : Understand reactive intermediate and
name reactions,

CO 3 :Apply the knowledge and understanding of molecular rearrangementsn of electron deficient carbon, Nitrogen and Oxygen

CO4 : Develop interest in the areas of spectroscopy-  Principles o9f UV, IR,NMR and Mass spectroscopy.

CO5: To gain knowledge about alkaloids, peptides, proteins and nucleic acids

To develop an insight into the identification of organic compounds by systematic analysis.

To understand the process of identification of organic compounds by systematic analysis.

To acquire skills in the identification of organic compounds by systematic analysis.

CO4: Understand the basic concept and theories of electrode-electrolyte interface

CO5 : Learn principles of photo chemistry and various photochemical reactions

To have hands-on experience/practical knowledge in performing Physical chemistry experiments

To develop skills on handling instruments like Potentiometry and perform different types of acid-base and redox titrations

To determine specific rotations and percentage of to optically active substances by polarimetrically

To study the stability of complex ion and stranded free energy change and equilibrium constant by potentiometry

CO 1: Acquire the knowledge of reactions and mechanisms of radical Substitution

CO 2: Understand reactions and mechanisms of Elimination reactions and their stereo chemistry.

CO 3: Apply the knowledge and understanding of Addition reactions to carbon- carbon , carbon- hetero atom multiple bonds.
CO 4: Acquire the knowledge of reactions and mechanism Pericyclic reactions and their classification.

CO5: Understand the concept of photo chemistry of carbonyl compounds, unsaturated systems and aromatic compounds.

CO 1: Acquire the knowledge of UV spectra of aromatic and hetero cyclic compounds and conformations of substituted cyclo hexanones.

CO 2: Understand the characteristic vibrational frequencies of various functional groups by  Infrared spectroscopy.

CO 3: Apply the knowledge and understanding the principle of NMR and its applications.

CO 4: Develop interest in the areas of Mass Spectroscopic techniques and fragm, entations of various functional groups.

CO5: To acquire the knowledge on structural elucidation of organic compounds using UV, IR, NMR, Mass spectral data.

CO 1: Acquire the knowledge of formation of C-C via enolates, enamines, organo metallic reagents.

CO 2: Understand formation of C=C bonds ,pyrolyticsyn eliminations.

CO 3: Apply the knowledge and understanding the introduction  of organic polymers, properties and their classification.

CO4: To understand the concept of reactions of un activated C-H bonds and their synthetic applications.

CO5: Develop interest in the areas of Asymmetric synthesis, Diels alder reaction.

CO 4: Develop interest in the areas of isolation, structural elucidation,
stereo chemistry, synthesis and biological properties of Flavonoids

CO5:Understand isolation, structural elucidation, stereo chemistry, synthesis and biological properties of natural pigments

·  Prepare, purify and characterization of organic compounds involving multistage.

Students will be able to know the melting

· Able to separate the non-volatile mixtures using column chromatography.

· Understand the column chromatography.

· Understand the paper chromatography to determine the purity.

CO 1:Acquire the knowledge of various modern synthetic methods.

CO 2: Understand multi component reactions and meta thesis

CO 3: Apply the knowledge and understanding of metal and non metal based oxidations

CO4: To understand the concept of Reduction – homogeneous and heterogeneous catalytic hydrogenation.

CO5: Develop interest in the areas of green chemistry, nano materials and phase transfer catalysis.

CO5: To gain knowledge on structural determination of natural products by spectroscopy

CO 1: Acquire the knowledge of the disconnection approach and its principles.

CO 2: Understand the synthetic strategies for one group disconnection
CO 3: Apply the knowledge and understanding of  disconnection
approach, synthetic strategies in two group disconnection
CO 4: Develop interest in the areas of the organo boranes preparations and their synthetic applications.

CO5: Understand the preparations and synthetic applications of organo silanes.

CO 1: Acquire the knowledge of drugs, their classification, drug metabolism and drug development, Structure Activity Relationship in drugs

CO 2: Understand drugs, their classification, drug metabolism of antineo plastic drugs

CO 3: Understand drugs, their classification, drug metabolism of  cardiovascular drugs

CO4: Acquire the knowledge of oral hypo glycaemic drugs.

CO5:Apply the knowledge and understanding of local anti-infective and antiviral drugs

·      Detect the solubility and the extra elements in the given compound.

·      Identify and confirm the given binary compound.

·      Able to know the melting and boiling points of derivatives.

·      Able to extract lycopene from tomato.

·      Isolate caffeine from coffee.