B. Sc in Chemistry (CHSEC 356T)
Course Outcomes CO COURSE OUTCOMES CO1 Know about industrial products such as drugs, dyes and complexing agents. CO2 Understand the preparations and uses of drugs, dyes and complexes. CO3 Develop problem solving skill related to industrial and analytical technics. CO4 Gain the skill to establish green and easy methods to prepare different drugs and dyes. CO5 Create, modify and synthesise preparation and application of drugs, dyes and complexing agents. CO6 Gain the skill regarding modification in drug designing.
B. Sc in Chemistry (CHE 355P)
Course Outcomes CO COURSE OUTCOMES CO1 Gain the fundamental and basic knowledge of inorganic qualitative and quantitative analysis. CO2 Understand the basic concepts and principles of cations and anions of inorganic salts, gravimetric and volumetric analysis. CO3 Apply the skill of separation of cations and anions present in an inorganic mixture and accuracy during the gravimetric and volumetric analysis. CO4 Analyse and conclude the facts regarding the inorganic qualitative analysis and quantitative analysis. CO5 Evaluate, judge and defend the different types of tests involves in the separation of inorganic radicals. CO6 Synthesise, Create, modify and develop the new techniques for the gravimetric and volumetric analysis.
B. Sc in Chemistry (CHE 354T)
Course Outcomes CO COURSE OUTCOMES CO1 Gain the fundamental knowledge of valence bond and molecular orbital theory, MO diagram of different types of molecules, hybridization and structure in carbonyls, adsorption and catalysis and physical properties. CO2 Understand the basic concepts of valence bond and molecular orbital theory, mixing of orbitals, back donation, multiple nature of M – CO bind, stricture of organometallic compounds, conductometric titrations and pollution control methods. CO3 Solve the problems regarding bond order, stability of the molecules, geometry of carbonyls, transport number, viscosity and refractive index. CO4 Analyse and correlate the facts regarding bonding in the molecules, role of terminal and bridging CO, factors affecting adsorption and different types of catalysis. CO5 Evaluate and criticize the principles of chemical bonding in compound and carbonyls, adsorption and catalysis reverse osmosis and electrodialysis. CO6 Create, modify and synthesise the facts of molecular orbital diagram of different molecules, preparation of carbonyls and organometallic compounds, application of catalysis and pollution control methods.
B. Sc in Chemistry (CHM 353P)
Course Outcomes CO COURSE OUTCOMES CO1 Gain the fundamental and basic knowledge of inorganic qualitative analysis, chemical kinetics and Physico-chemical experiments. CO2 Understand the basic concepts and principles of cations and anions of inorganic salts, conductometer, pH-meter, potentiometer and colorimeter. CO3 Apply the skill of separation of cations and anions present in an inorganic mixture and how to handle different instruments like conductometer, pH-meter, potentiometer and colorimeter. CO4 Analyse and conclude the facts regarding the inorganic qualitative analysis and chemical kinetics. CO5 Evaluate, judge and defend the different types of tests involves in the separation of inorganic radicals and different types titration using instruments. CO6 Synthesise, Create, modify and develop the new techniques for the separation of inorganic radicals and in the use of different instruments like conductometer, pH-meter, potentiometer and colorimeter.
B. Sc in Chemistry (CHM 352T)
Course Outcomes CO COURSE OUTCOMES CO1 Know about UV, IR, NMR, Mass and Atomic spectroscopy. CO2 Understand the principle, theory and applications of UV, IR, NMR, Mass and Atomic spectroscopy. CO3 Apply the knowledge to solve problems related to UV, IR, NMR and mass spectroscopy. CO4 Create ability to interpret spectra related to UV, IR, NMR, mass and Atomic spectroscopy for structure determination and elemental analysis which can be helpful to analyse research problems.
B. Sc in Chemistry (CHM 351T)
Course Outcomes CO COURSE OUTCOMES CO1 Know about advanced topics of organic chemistry. CO2 Understand the advanced topics of stereochemistry, organic reactions, reagents and some natural products. CO3 Apply the knowledge of stereochemistry, organic reactions, reagents and some natural products in structure determination, designing a synthesis, reaction mechanism etc. CO4 Develop problem solving skill related to advance organic chemistry topics and environmental safety.
B.Sc. in Physics (PHM-364P)
Course Outcomes CO COGNITIVE ABILITIES COURSE OUTCOMES CO1 REMEMBER UNDERSTAND Set up the instruments as per the instructions, Connect the circuit as given in the circuit diagram. CO2 UNDERSTAND APPLY Develop measurements techniques, record observations, use the given formula, do calculations and draw your conclusion from the result. CO3 EVALUATE Find uncertainty involved in the observations. CO4 ANALYZE Analyse the observations for scientific inference.
B.Sc. in Physics (PHM-364T)
Course Outcomes CO COGNITIVE ABILITIES COURSE OUTCOMES CO1 UNDERSTAND APPLY ANALYZE Understanding the foundational principles of relativity, applying mathematical transformations, and analysing the impact of motion measurements of space and time. CO2 UNDERSTAND APPLY ANALYZE Thoroughly understand the stability of transistor circuits using different types of biasing configurations. Grasped the in-depth knowledge of number systems and codes with numerous examples.
B.Sc. in Physics (PHM-363P)
Course Outcomes CO COGNITIVE ABILITIES COURSE OUTCOMES CO1 REMEMBER UNDERSTAND Set up the instruments as per the instructions, Connect the circuit as given in the circuit diagram. CO2 UNDERSTAND APPLY Develop measurements techniques, record observations, use the given formula, do calculations and draw your conclusion from the result. CO3 EVALUATE Find uncertainty involved in the observations. CO4 ANALYZE Analyse the observations for scientific inference.
B.Sc. in Physics (PHM-362T)
Course Outcomes CO COGNITIVE ABILITIES COURSE OUTCOMES CO1 UNDERSTAND ANALYZE APPLY Understand the concepts of retardation and production of electromagnetic waves by an accelerating charge particle. Apply these concepts for analyzing oscillating dipole working as a simple antenna. CO2 UNDERSTAND ANALYZE APPLY Understand the concept of binding energy of nucleus by comparing with structure of liquid drop. Calculation of different energy terms associated with binding energy can be done. By applying theses all concepts analysis of stability of any fissionable nucleus can be done. CO3 UNDERSTAND ANALYZE APPLY Understand and apply principles of analog electronics to study the negative feedback amplifier and transistor oscillator circuits CO4 UNDERSTAND ANALYZE APPLY Understand the basic principles of Boolean laws for different digital circuits. Apply these laws to plot Karnaugh map for different logic circuits Analyse and design combinational and sequential digital circuits.
