Course Outcomes:  

Semester: I

Paper: I

Objectives:

1. To understand the shape of different orbits.
2. To understand different principles for filling electrons.
3. To understand the core concept of organic chemistry i.e resonance, hyper conjugation, inductive effect and their applications.
4. To study isomerism and type of isomerism.
5. To study about nomenclature, synthesis, isomerism and physical properties of alkanes and cycloalkanes.
6. Students should be able to determine the difference between the solid, liquid and gasses.

   Outcome:

      1. Able to draw MO diagrams of different molecules and calculate bond order of different molecules.

      2.Detailed understanding of various compounds of elements of P-block and theoretical knowledge to perform semimicro analysis i.e identification of inorganic salts.

      3.Understand the nomenclature, synthesis, isomerism and physical properties of alkanes and cycloalkanes.

      4.Recognise  and  draw  constitutional isomers, stereoisomers, including  enantiomer and diastereomers.

Semester: II

Paper: II

Objectives:

1. In order to study transition metal to understand the trends in properties and reactivity of the D- block elements.
2. To explain the typical physical and chemical properties of transition metal.
3. To understand the mechanism of attack of electrophiles and nucleophiles.
4. Explain the various methods for the determination of transport numbers.
5. Acquire basic knowledge of electrode conduction.
6. To understand the chemical reaction of phenols.

Outcomes: 

 1.Understand reactivity and structure of oxides ,oxy acids,structure of interhalogen compound, zero group and d_block elements. 

 2.Able to predict the reactivity of organic compounds from its structure.

  3.Understand the chemical reaction of halogen compounds and hydroxy compounds.

   4.State the basic principle of electrochemistry.

   5.Mention and explain various methods for the determination of transport number.

   6.Understand the concept of stereochemistry of carbon compounds.

Semester: III

Paper: III

Objectives:

1. To understand the method for preparation of alcohol.
2. To understand the structure of carboxylic acids derivatives.
3. To understand thermodynamics terms :System, surroundings..etc.Types of system,intensive and extensive properties,State and path function and their differentials .
4. To understand the concept of equilibrium constant,free energy,chemical potential
5. To understand the nernst distribution law

Outcomes:

1. The student will be able to explain the fundamental concept in co ordination chemistry of transition metal.
2. Understand the chemistry of the F-block element.
3. Able to write the order of reactivity of different carboxylic acid derivatives.
4. Able to recognise acid halide,ester,amide,acid anhydride.
5. Recognise the basic term of thermodynamics
6. Able to derive jouls law and application
7. Understand the phase rule and phase diagrams.

Semester: IV

Paper: IV

Objectives:

1. Major applications of coordination compounds and their catalyst to alter the rate of Chemical reaction which is very helpful in the production of polyethylene.
2. Students can recognize how the fundamental principles of inorganic chemistry apply to bio-inorganic chemistry.
3. Heterocyclic compounds have significant importance in drug Discovery due to their diverse Biological activities.
4. Photochemistry is useful to formulate the macroscopic and quantum loss of absorption of molecules and solids.
5. From colloids and surface chemistry, define and explain surface and interfacial phenomena and also explain different colloidal systems.

Outcomes:

After completion of syllabus,students able to explain the following points:

1. Crystal field theory ,applications, determination of complex formation in solution,HSAB,stability constant and it’s types,job’s method and applications of coordination compounds.
2. Importance of elements and their role.Metal atoms and their impotence.
3. Identify carbohydrates and amino acids by Molisch test and ninhydrin test.
4. Perform the physical chemistry related experiments by using chemical kinetics.

Differentiate colloidal chemistry and recognize surface phenomenon that is happening in daily life.

Paper: V Spectroscopy and Separation techniques

Objectives:

1. Demonstrate understanding of the Electromagnetic spectrum and how this can be applied to the study of chemical reactions.
2. Rotationalspectroscopy gives bond length of hetero nuclear atomic molecules.
3. IR spectroscopy used to determine molecules structure, identification and Qualitative or Quantitative determination of Chemical species.
4. NMR spectroscopy involves interaction of materials with low energy radio Frequency radiation and describes the use of TMS as the standard for chemical shift measurements.
5. Mass spectroscopy involves identifying the individual components of the MS and their respective functions.
6. Define Chromatography and explain classification of chromatography.
7. Explain type of phases in chromatography.
8. State different types of chromatographic techniques.
9. Analyze the basic principle behind the phenomenon of chromatography.
10. Apply the knowledge of chromatography in Separation and identification of Chemical compounds.
11. Describe paper, TLC, Column, Ion exchange, Gas,and HPLC (definition, principle, method and their applications) in the pharmaceutical industry.

Outcomes:

1. Understand general concepts of spectroscopy.
2. Befamiliar with some common forms of spectroscopy used in molecular structure determination.
3. Be able to correctly interpret spectra.
4. Be able to use spectra to solve the structures of organic molecules.
5. Understand solvent extraction and it’s types .
6. Descriptions of experimental chromatography.
7. Chromatographic Separation and choice of solvent .
8. Paper,TLC,Column,Ion exchange, Gas chromatography, and HPLC.

   Semester: VI

   Paper: VI MEDICINAL CHEMISTRY

Objectives:

1. Define medicinal chemistry and role of medicinal chemist in drug Discovery.
2. Explain how protein (receptor,enzymes) and DNA structure relate to function with respect to their role as targets for drug Discovery.
3. Explain how knowledge of physicochemical properties in dry development can address problems encountered with formulation, administration, metabolism and elimination.
4. Describe how the requirements of drug development vary depending upon the specific target and therapeutic area.
5. Understand how previous drugs have been successfully developed studies that address varied administrative routes within a range of therapeutic areas (for example:anticancer agents, cardiovascular, respiratory etc)
6. Drugs their Pharmacodynamics and Pharmacokinetic action.

Outcomes:

1. Upon completion of Medicinal chemistry syllabus,students shall be able to

2. Understand the chemistry of drugs with respect to their pharmacological activity.
3. Understand the drug metabolic pathways,adverse effect and therapeutic action of drugs.
4. Know the Structural Activity Relationship (SAR) of different class of drugs.
5. Write the chemical synthesis of few drugs.