SEMESTER I
CH1CRT01 – General and Analytical Chemistry
CO1: The learners will be able to recall the historical developments and basic methodologies in chemistry.
CO2: The learners will be able to understand the atomic properties of elements and their arrangement in the periodic table based on these properties.
CO3: The learners will be able to classify various analytical techniques for the identification and separation of chemical compounds.
CO4: The learners will be able to analyze the experimental results data and make proper inferences
SEMESTER II
CH2CRT02 – Theoretical and Inorganic Chemistry
CO1: The learners will be able to recognize the different theories that contributed to the development of atomic structure.
CO2: The learners will be able to describe various forms of chemical bonds that occur in molecules and their characteristics.
CO3: The learners will be able to analyze the properties of s, p, d and f block elements.
SEMESTER I and II Core Chemistry Practicals
CH2CRP01 - Volumetric Analysis
CO1: The learners will be able to contour the procedure for volumetric analysis.
CO2: The learners will be able to estimate the amount of substance in a given sample by acidimetry, alkalimetry, complexometry iodometry, iodimetry, permanganometry and dichrometry.
SEMESTER III
CH3CRT03- Organic Chemistry I
CO1: The learners will be able to apply fundamental concepts and terminology of organic chemistry, including nomenclature, reaction types, and reactive intermediates.
CO2: The learners will be able to discuss principles in stereochemistry, including isomerism, chirality, and conformational analysis.
CO3: The learners will be able to apply principles of organic chemistry to solve problems in organic reactions, including predicting reaction outcomes and explaining mechanisms.
CO4: The learners will be able to analyze organic reactions and mechanisms, including regioselectivity, stereoselectivity, and pericyclic reactions.
SEMESTER IV
CH4CRT04- Organic Chemistry II
CO1: The learners will be able to review fundamental concepts and reactions of alcohols, phenols, ethers, epoxides, aldehydes, and ketones.
CO2: The learners will be able to understand the properties, reactivity, and transformations of alcohols, phenols, ethers, epoxides, aldehydes, and ketones.
CO3: The learners will be able to forecast outcomes of reactions and interconversions involving alcohols, phenols, ethers, epoxides, aldehydes, and ketones.
CO4: The learners will be able to analyze structure-reactivity relationships, selectivity, and mechanisms of complex reactions involving carboxylic acids, sulphonic acids, and their derivatives.
Top of Form
SEMESTER III and IV Core Chemistry Practicals
CH4CRP02 - Qualitative Organic Analysis
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CO1 |
The learners will be able to systematically analyze and identify organic compounds using the recorded procedure. |
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CO2 |
The learners will be able to analyze the physical constants (melting and boiling points) of organic compounds. |
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CO3 |
The learners will be able to prepare derivatives of a few organic compounds. |
SEMESTER V
CH5CRT05-Environment, Ecology and Human rights
CO1: The learners will be able to understand the fundamental concepts and significance of environmental studies, including natural resource classification, pollution, disaster management, and the role of environmental legislation.
CO2: The learners will be able to apply knowledge to propose preventive measures for various types of pollution, such as air, water, soil, marine, noise, and thermal pollution.
CO3: The learners will be able to assess the impact of chemicals on ecosystems, conduct risk assessments of contaminated soils.
CO4: The learners will be able to analyze the socio-economic and geo-political dimensions of population growth, poverty, and their environmental impacts, while examining the role of environmental movements and evaluating legislation related to environmental protection.
CO5: The learners will be able to apply human rights principles, international frameworks, and national contexts to address contemporary human rights issues.
CH5CRT06- Organic Chemistry –III
CO1: The learners will be able to understand the preparation methods, reactions, and applications of nitrogen-containing compounds.
CO2: The learners will be able to analyze the structure, synthesis, and significance of heterocyclic compounds in organic chemistry and drug development.
CO3: The learners will be able to demonstrate the synthesis, reactivity, and synthetic applications of active methylene compounds.
CO4: The learners will be able to understand the classification, structure, and functional importance of carbohydrates in biological systems.
CO5: The learners will be able to classify drugs and drugs based on their structure and uses.
CO6: The learners will be able to apply concepts related to polymers, understand their polymerization mechanisms, and evaluate their applications and environmental impact.
CH5CRT07- Physical Chemistry- I
CO1: The learners will be able to develop an understanding of the fundamental concepts and principles related to the gaseous state, liquid state, solid state, surface chemistry, and colloidal state.
CO2: The learners will be able to apply concepts of the deviations of real gases from ideal behavior, collision properties of molecules, structure and properties of crystals, and properties of colloids.
CO3: The learners will be able to comprehend different intermolecular interactions in gaseous state, liquid state, solid state and liquid crystals.
CO4: The learners will be able to solve numerical problems related to states of matter and surface chemistry.
CH5CRT08- Physical Chemistry- II
CO1: The learners will be able to explain the basic principles of quantum mechanics and how they apply to the study of atom structure, molecule bonding, and molecular spectroscopy.
CO2: The learners will be able to apply the fundamentals of various spectroscopic techniques – Rotational, Vibrational, Electronic, Raman, NMR and ESR spectroscopy
CO3: The learners will be able to elucidate the structure of simple molecules with the aid of different spectroscopic techniques
CH5OPT01- Chemistry in Everyday Life (Open Course)
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CO1 |
The learners will be able to Identify the chemicals we use in our daily lives. |
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CO2
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The learners will be able to understand the chemistry of food additives, soaps, detergents, cosmetics, plastics, papers, dyes, drugs, fertilizers and pesticides and their impact on our environment and health. |
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CO3 |
The learners will be able to explain the concept nanomaterials and discuss their current and future applications
SEMESTER IV CH6CRT09- INORGANIC CHEMISTRY CO1: The learners will be able to forecast the geometries, properties, and reactions of coordination compounds using fundamental concepts of coordination chemistry. CO2: The learners will be able to apply the bonding, stability, and properties of organometallic compounds such as ferrocene, metal-alkene complexes, and carbonyls. CO3: The learners will be able to analyze the role of inorganic elements in biological systems, including electron carriers and metalloenzymes. CO4: The learners will be able to illustrate the knowledge of boron compounds, including the preparation, properties, and structures of diborane, borazine, boric acid, and boron nitride. CO5: The learners will be able to compare the classification, preparation, structures and reactivity of interhalogen compounds. CH6CRT10 - ORGANIC CHEMISTRY - IV
CO1: The learners will be able to explain the structural aspects, properties, synthesis and applications of natural products, lipids, vitamins, steroids, hormones, amino acids, peptides and proteins. CO2: The learners will be able to describe structure and biological functions of nucleic acids and enzymes. CO3: The learners will be able to discuss the basic principles of supramolecular chemistry. CO4: The learners will be able to demonstrate different photochemical phenomena and reactions. CO5: The learners will be able to assess the principles of organic spectroscopy for the identification of simple organic molecules. |
COMPLEMENTARY COURSE IN CHEMISTRY
(Students who have opted Physical Sciences as core)
Semester I
CH1CMT01- Basic Theoretical and Analytical Chemistry
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CO1 |
The learners will be able to summarize the basic concepts and theories of chemistry |
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CO2 |
The learners will be able to explain the fundamental concepts of atomic structure, chemical bonding, periodic properties of elements, chemical equilibria, and the mole concept. |
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CO3 |
The learners will be able to discuss the basic principles of qualitative and quantitative analysis. |
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CO4 |
The learners will be able to compare various chromatographic techniques, their principles and applications. |
Semester II
CH2CMT02- Basic Organic Chemistry
CO1: The learners will be able to recall the essential organic chemistry concepts: carbon properties, nomenclature, isomerism, reactions, intermediates, and reagents.
CO2: The learners will be able to comprehend the mechanisms of organic reactions.
CO3: The learners will be able to compare different type of isomerism shown by organic compounds.
CO4: The learners will be able to classify polymers based on their origin, synthesis and properties.
Semester I and II Complementary Chemistry Practicals
CH2CMP01- Volumetric Analysis
CO1: The learners will be able to apply different volumetric titration methods to estimate the concentration of analytes using standard solutions.
CO2: The learners will be able to solve problems related to volumetric analysis.
Semester III
CH3CMT03- Physical Chemistry-I
CO1: The learners will be able to explain the fundamental properties of the gaseous, liquid, and solid states of matter.
CO2: The learners will be able to recall what are colloids, their classification, preparation,
properties and applications.
CO3: The learners will be able to review surface chemistry of materials and introduce phase equilibrium
Semester IV
CH4CMT05- Physical Chemistry II
CO1: The learners will be able to describe the fundamental principles of spectroscopy.
CO2: The learners will be able to explain the key concepts and principles of UV-Visible and infrared spectroscopy.
CO3: The learners will be able to summarize the fundamentals of nanomaterials and nanochemistry,
CO 4: The learners will be able to discuss kinetics, catalysis, photochemistry, and electrochemistry principles, including reaction rates, catalysis types, photochemical laws, and electrochemical measurements.
Semester III and IV Complementary Chemistry Practicals
CH4CMP02 - Physical Chemistry Practicals
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CO1 |
The learners will be able to develop skills to perform different physical chemistry experiments and calculate physical constants from data obtained. |
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CO2 |
The learners will be able to interpret data obtained from the experiments obtained and plot them graphically. |