PROGRAM OUTCOMES FOR POST GRADUATION 2021-22 

In the post graduate courses, S.P.Mandali’sRamnarainRuia Autonomous College is committed to impart conceptual and procedural knowledge in specific subject areas that would build diverse creative abilities in the learner. The College also thrives to make its Science post graduates research/ job ready as well as adaptable to revolutionary changes happening in this era of Industry 4.0. 

PO 

A student completing Masters in Science program will be able to: 

PO1 

Demonstrate in depth understanding in the relevant science discipline. Recall, explain, extrapolate and organize conceptual scientific knowledge for execution and application and also to evaluate its relevance 

PO 2 

Critically evaluate, analyze and comprehend a scientific problem. Think creatively, experiment and generate a solution independently, check and validate it and modify if necessary. 

PO 3 

Access, evaluate, understand and compare digital information from various sources and apply it for scientific knowledge acquisition as well as scientific data analysis and presentation. 

PO 4

Articulate scientific ideas, put forth a hypothesis, design and execute testing tools and draw relevant inferences. Communicate the research work in appropriate scientific language.

PO 5

Demonstrate initiative, competence and tenacity at the workplace. Successfully plan and execute tasks independently as well as with team members. Effectively communicate and present complex information accurately and appropriately to different groups.

PO 6

Use an objective, unbiased and non-manipulative approach in collection and interpretation of scientific data and avoid plagiarism and violation of Intellectual Property Rights. Appreciate and be sensitive to environmental and sustainability issues and understand its scientific significance and global relevance.

PO 7

Translate academic research into innovation and creatively design scientific solutions to problems. Exemplify project plans, use management skills and lead a team for planning and execution of a task.

PO 8

Understand cross disciplinary relevance of scientific developments and relearn and reskill so as to adapt to technological advancements.

Subject

Programme Specific outcomes

Course Code

Paper Title

Course Outcomes

Regular Msc Bioanalytical Sciences

1.Develop skills in the field of Bio-analytical Sciences with specific emphasis for exploitation of ASU system of medicine as well as its need for changing trends of modern pharmaceutical Industries.

2.Amalgamate traditional analytical chemical techniques with modern genomic and proteomic technologies of manufacturing and analysis.

3.It will also introduce the powerful tools of informatics in routine use at manufacturing, QC and research.

4.It will further expose to National & International regulatory affairs with reference to drugs.

RPSBAS101

Principles of Bioanalysis

1.Students will develop curiosity and interest in the field of Bioanalysis.

2.Students will get acquainted with intricacies of dilutions, concepts of weight, volume and density for different samples and chemical solutions.

3. Students will also learn about the composition and storage of different bio-matrices.

4.In the practical paper, students will learn the preparation of analytical standard solutions along with extraction and analysis of biomolecules.5.Students will also learn the skill of Liquid-Liquid Extraction and Solid Phase Extraction of modern drug from complex biomatrix like plasma.

RPSBAS102

Spectroscopic Techniques

1.This course will highlight the importance of Electromagnetic spectrum and introduce the students to components of optical instruments.

2.Students will be well versed with atomic absorption as well as atomic emission spectroscopy.

3.Students will also learn the Principles and applications of different molecular spectroscopy techniques.

4.Students will learn the principle, and applications of spectroscopic techniques based on light scattering.

5.In the practicals, students will get hands-on different techniques like Nephelometry, Turbidometry, IR spectroscopy.

6.Students will also learn to analyze samples using Flame Photometry and Atomic Absorption Spectroscopy.

RPSBAS103

Introduction to Pharmacy

1.Students will be introduced to the concept of Drug, its formulations and drug metabolism.

2.Students will be studying the mechanism of drug action.

3.Students will also learn about the concept of new chemical entity and get an idea about the entire process of new drug development.

4.Students will also study the different pharmacopoeias and will be able to understand the significance of each pharmacopoeia.

5.In the practical paper, the student will carry out tablet testing for different parameters like hardness, friability, disintegration and dissolution of the tablet.

6.Students will also practise advanced titrations like complexometric titrations.

RPSBAS104

Applied Biology

1.This course will introduce students with advances in the fields of genomics and proteomics.

2.Students will also learn about enzymes, their kinetics and multi-enzyme complexes& their applications.

3.Students will get an idea about the vast field of Immunoassays and Immunoinformatics.

4.Students will also be enlightened about Electrophoresis technique and its applications.

5.The practical paper will train students on analytical techniques like SDS-PAGE and immunoassays.

6.The students will also get a hands-on experience on various Bioinformatics tools.

RPSBAS201

Pharmacognosy & Phytochemistry

1.This course will introduce the students to the field of Pharmacognosy, ethnobotany and ethnomedicine.

2.Students will be able to appreciate the therapeutic properties of plants.

3.Students will learn phytochemistry and significance of different phytoconstituents along with its chemistry.

4.Students will be able to effectively use modern methods for extraction and analysis of phytoconstituents

5.In the Practical paper, students will learn to analyze secondary metabolites and carry out evaluation of crude drugs.

6.Students will also get a hands-on experience for Herbaria preparation of a plant and its microscopic study.

RPSBAS202

Chromatographic Techniques

1.This course will inculcate analytical approach regarding correct choice of analytical method and introduce to basic principles of chromatography.

2.Students will learn the different techniques of Planar Chromatography.

3.Students will also get familiarized with instrumentation and applications of Gas Chromatography and will be able to effectively use chromatographs for analysis of samples and interpret the results.

4.Students will get an insight into recent advances and troubleshooting involved in High Performance Liquid Chromatography.

5.In the practical paper, students will learn the importance of standardization in various experimental conditions.

6.Students will be able to carry out simultaneous analysis of Phytoconstituents using sophisticated analytical techniques like HPTLC and GC.

RPSBAS203

Practices in Pharmaceutical Industry

1.In this course, students will be trained for Good Lab Practices.

2.The course will also give an insight into the good manufacturing practices followed in industry operations.

3.Students will realize the importance of documentation and strict adherence to protocol in bioanalytical industries.

4.Students will understand the issues related to stability of raw material and its formulations.

5.In the Practical paper, students will understand the importance of shelf-life and stability studies of Pharmaceutical Preparations.

6.Students will also learn to use HPLC as a separation tool for evaluation of modern drug and its formulations from plasma.

RPSBAS204

IPR, Drug Act & Regulations

1.This will familiarize students with the current legal scenario regarding intellectual property rights.

2.Students will also learn the importance of different Acts and treaties made for Intellectual Property Rights.

3.Students will understand the importance of Drug & Cosmetics act and regulations.

4.Students will also get an insight into regulated bioanalysis, its evolution and quality systems in regulated bioanalysis.

5.In the practical paper, students will be able to review research papers and learn the art of abstract writing and patent claim drafting.

6.Students will also get a chance to summarize present their learning outcomes of industrial visits in the current semester.

RPSBAS301

Microbiology, Toxicology, and Standardization of Ayurveda, Siddha & Unani (ASU) Medicine

1.The course will underline the importance of Bioanalytical techniques for standardization of traditional medicines.

2.This will empower the students to employ antimicrobial agents in an effective way.

3.This course will also highlight the importance of toxicological studies for ensuring safe administration of pharmaceuticals

4.Students will also be introduced to Indian Systems of Medicine and regulatory aspects of ASU drugs.

5.In the practical paper, students will learn to carry out microscopic evaluation of Ayurveda, Siddha and Unani Drugs in compliance to Pharmacopoeia.

6.Students will also get hands-on different microbiological techniques like gram staining, sterility testing and total viable count as an application to herbal raw material and its formulations.

RPSBAS302

Bioanalytical Techniques & Clinical Data Management (CDM)

1.This will highlight the importance of hyphenated techniques.

2.It will enable the students to analyze and interpret mass spectrometric data for identification and quantification of analytes.

3.Students will obtain a knowhow of in-vitro and in-vivo bioassays.

4.Students will be benefited with the guidelines and regulations in Clinical Data Management.

5.In the practical paper, students will gain an in-depth knowledge of applications of IR-Spectroscopy for variety of samples.

6.Students will also be able to run bioassays for pharmaceutical samples and toxicity study assays.

RPSBAS303

Research Methodology and Biostatistics

1.Students will be able to employ the strategies of research methodology while undertaking any research.

2.Students will learn the types of research and various research designs along with ethics in research.

3.Students will gain knowledge about data types and its collection methods in biostatistics.

4.Students will be able to analyse biological samples in a regulated manner and apply suitable statistical tests to extrapolate the observations to relevant results.

5.Industrial training experience will imbibe the Industrial practices in students.

RPSBAS304

Internship

1.Students will get to know the functionality and working setup and norms of Industry.

2.Industrial training will impart all types of professional qualities in students along with enhancing their skills in the Industrial research.

3.This will also familiarize students with current research trends and job roles in the Pharmaceutical and allied industries.

4.Additionally, the students will be able to interpret case studies and problems in Biostatistics.

RPSBAS401

Pharmaceutical Biotechnology & Pharmaceutical Manufacturing

1.This will train students to use appropriate Bioanalytical technique to assess the stability of pharmaceuticals.

2.Students will understand the norms required for manufacturing in pharmaceutical industry

3.Students will also learn the different Cell and Gene therapy products and its manufacture, storage, shipping & labelling.

4.Students will get an insight into Biosimilars and Biopharmaceuticals and the different norms associated with it.

5.Students will learn PCR technique and its applications in detecting genetically modified organisms.

6.Students will get a hands-on DNA extraction and Purity studies &DNA Fingerprinting techniques.

RPSBAS402

Advances in Bioanalysis

1.This will enable the students to use mass spectrometry for qualitative and quantitative analysis of data

2.Students will be able to interpret the Mass Spectra.

3.Students will be able to conduct method development and validation using analytical instruments.

4.Students will get an idea about the additional issues of endogenous substances and biomarkers in Bioanalytical Method Development.

5.Students will get hands on method validation using sophisticated analytical instruments like HPLC or GC

6.Students will also gain practical idea about Infra-Red Spectroscopy technique and its applications for different samples.

RPSBAS403

Fundamentals of Clinical Research

1.Students will be enlightened about the various aspects of clinical research.

2.Students will get a brief idea regarding the case report format involved in BA/BE study.

3.Students will get an idea about Therapeutic Drug Monitoring and its Pharmacoeconomics.

4.Students will learn the role and significance of Pharmacovigilance along with its process.

5.In the Practical Paper, the students will be able to calculate different Pharmacokinetic parameters and solve Bioavailability & Bioequivalence problems.

6.Students will also be able to apply HPLC in therapeutic drug monitoring.

RPSBAS404

Modern Analytical Techniques

1.Students will get an in-depth knowledge of different analytical techniques like XRD, XRF, NMR

2.This will train students to interpret spectral data of IR, NMR and LC-MS for structural elucidation of analytes.

3.Students will also get introduced to the Tracer techniques & use of radioactive tracers in assays

4.It will also enlighten students about chiral chromatography and CD-ORD principle and applications in the analytical field.

5.In the Practical paper, students will be able to undertake a research project based on a relevant research problem in the current era.

6.Students will also be able to apply statistical analysis in research.

Integrated Msc Bioanalytical Sciences

RPSBAS701

Pharmaceutical Microbiology & Pharmaceutical Manufacturing

1.Students will learn the applications of microbiology for testing quality of pharmaceutical products.

2.Students will understand the norms required for manufacturing in pharmaceutical industry.

3.Students will be able to design and perform bioassays.

RPSBAS702

Pharmacology & Toxicology

1.Students will realize the importance of toxicological studies for ensuring safe administration of pharmaceuticals.

2.Students will get hands-on training in toxicological assays.

RPSBAS703

Extraction, Separation and Isolation of Analytes from biological matrices

1.Students will be able to safely handle different biomatrices.

2.Student should be able to choose and perform appropriate method for extraction and isolation of analytes in varied biomatrices.

RPSBAS704

Different Systems of Medicine & Regulations

1.Students will realize the importance of bioanalytical techniques for standardization of traditional medicines.

2.Students will be able to perform and compare modern analytical techniques such as HPTLC, HPLC, UV-Vis spectroscopy for standardization of pharmaceutical products.

RPSBAS801

Molecular Biology & Tissue culture

1.Students will learn different tissue culture techniques and their applications.

2.Student will understand the significance of cell and gene therapy as a potent futuristic medicine.

3.Students will be trained in molecular biology techniques such as PCR, RFLP, and DNA purification

RPSBAS802

Intellectual Property Rights, Drugs and Cosmetic Act & Regulations

1.Students will be familiarized with the current legal scenario regarding intellectual property rights.

2.Students will understand the importance of Drug act and the need for regulations in Bioanalysis.

3.Students will be able to perform stability studies for pharmaceuticals.

RPSBAS803

Quality Management in Pharmaceutical Industry

1.Students will get an insight into the good practices followed in industrial operations.

2.Students will realize the importance of documentation and strict adherence to protocol in bioanalytical industries.

RPSBAS804

Pharmaceutical Testing and Proteomics

1.Students will be enabled to make effective use of Pharmacopoeia in evaluation of drugs and related substances.

2.Student will learn to deal with possible challenges in biopharmaceutical testing.

3.Students will be able to perform pharmacopeial assays for active pharmaceutical ingredient and tablet properties.

RPSBAS901

Automation & Data Management

1.Student will be aware about the need for Automation in analysis.

2.Students will realize the importance of clinical data management and electronic data management

3.Student will be able to visualize protein tertiary structures using bioinformatics tools

RPSBAS902

Bioanalytical techniques & Clinical Data Management (CDM)

1.Students will be able to understand the importance of hyphenated techniques.

2.Students will be able to analyse and interpret mass spectrometric data for identification and quantification of analytes.

3.Students will get hands-on training on HPLC.

RPSBAS903

Research Methodology & Biostatistics

1.Student will understand the importance of research methodology and research designs in all fields of research.

2.Students will also be able to use descriptive statistics and test of significance for accurate statistical calculations in research.

RPSBAS904

Internship

1.Student will be trained to face the challenges of industry and will acquire requisite skills in the field of Bioanalysis and research.

RPSBAS1001

Analytical Techniques and their Validation

1.Students will be trained to interpret spectral data of IR, NMR and LC-MS for structural elucidation of analytes.

2.Students will understand applications of these techniques with special emphasis on bioanalysis.

3.Students will be able to perform IQ/OQ/PQ for analytical instruments.

RPSBAS1002

Advances in Bioanalysis

1.Student shall be enabled to use mass spectrometry for qualitative and quantitative analysis of data and conduct method development and validation on analytical instruments.

RPSBAS1003

Clinical Research & Ethics

1.Student will learn the various aspects of clinical research.

2.Student will get an overview of BA/BE studies and Therapeutic Drug Monitoring (TDM)

3.Students will be able to calculate pharmacokinetic parameters for the given drug

RPSBAS1004

Project Work

1.Students will learn how to formulate hypothesis, carry out literature survey, test hypothesis by designing experiments, and interpret results

2.Students should understand the importance of proper documentation and should be able to present the research carried out.

.

Subject

Programme Specific outcomes

Course Code

Paper Title

Course Outcomes

Biochemistry

Acquire necessary knowledge and skills to undertake a career in

research, either in industry or in an academic set up.

RPSBCH101

Membrane Biochemistry & Bioenergetics

CO 1 Understand composition and structure of bio-membranes

CO 2 Recognize the importance of transport mechanisms and cellular trafficking across biological membranes

CO 3 Describe different types of transporters and explain their mechanisms

CO 4 Comprehend the different modes of communication between cells including signal reception, transduction, amplification, and response.

CO 5 Know about Bioenergetics, mechanisms of oxidative

phosphorylation

CO 6 Learn the concept and mechanism of ATP synthesis

Compare and contrast the breadth and depth of scientific knowledge in

the broad range of fields including Protein biochemistry, Bioenergetics,

Diagnostic Biochemistry, Hormonal Biochemistry, Molecular Biology,

Nutritional Biochemistry, and Nanotechnology.

RPSBCH102

Protein Biochemistry & Enzymology

CO 1 Understand details of protein structure such as protein organization, end group analysis and stabilizing bonds

CO 2 Know Various techniques used in the study of protein biochemistry

CO 3 Learn Protein folding & Protein Engineering and their research - oriented applications

CO 4 Analyse Ramachandran plot and other plots with respect to kinetics of different enzymes

CO 5 Determine optimum temperature, pH for the activity of an enzyme.

CO 6 Determine Km and Vmax of enzymes and to analyse enzyme kinetics.

CO 7 Understand enzyme inhibition with more complexity.

Extrapolate and comprehend the regulatory role of metabolic processes

and understand the underlying cause of metabolic disorders

RPSBCH103

Biostatistics and Ecology

CO 1 Acquire hands-on practical training to plan biological experiments with requisite sample size. After completion of experiments based on different sample sizes students will be able to perform proper statistical analysis of the data using mean, median, mode, Range, percentiles, variance, SD, Mean deviation and Coefficient of variation

CO 2 Apply the principles of biological data management in real life situations.

CO 3 Learn R software and this training will improve computational, mathematical and computer skills of the students.

CO 4 Make the use of Hypothesis testing, Chi-square, Correlation & Regression, Normal distribution, ANOVA, Probability in their research work.

CO 5 Know statistical methods and it will help them in improving their analytical and interpretation skills

CO 6 Understand different concepts in population studies and ecology

Acquire thorough knowledge of Biochemical Techniques, Advanced

Immunology, Physiology, Genetic Engineering, and Biotechnology

RUSBCH104

Instrumentation and Analytical Techniques I

CO 1 Gain expertise in the isolation of various biomolecules and organelles.

CO 2 Obtain hands-on training in basic separation techniques in biochemistry and gain expertise in the isolation of various biomolecules and organelles

CO 3 Acquire a sound background of latest methods used in biochemistry for purification of enzymes, isolation and characterization of proteins, nucleic acids, etc.

CO 4 Develop practical skills related to applications of spectroscopy, chromatography, electrophoresis

CO 5 Get equipped with the latest techniques used in analysis of biomolecules and this will help them in undertaking further research in the area of biochemistry in any research/industrial institution.

Describe and express the biochemical basis of human diseases, protein

structure and conformation, non-invasive diagnostics, clinical research,

and its importance in drug development. Usage of this knowledge further

for multitude of laboratory applications.

RUSBCH201

Industrial Biotechnology

CO 1 Understand the fermentation process, inoculum development and fermentation media.

CO 2 Acquire information about large scale production and purification of various industrially important produces.

CO 3 Procure information about types and applications of biosensors in the field of biology.

CO 4 Obtain knowledge about production of different types of vaccines

CO 5 Realize the importance and identify the requirements for the compliance of QC, QA, GMP and GLP

Integrate and apply the techniques in Biophysics, Analytical Biochemistry,

Clinical biochemistry, Microbiology, Molecular Biology and Basics in

Bioinformatics

RUSBCH202

Research Methodology, IPR, Bioinformatics & Nanotechnology

CO 1 Understand the objectives of doing scientific research.

CO 2 Learn how to identify the area of research to be conducted, how to proceed for literature survey using a variety of sources and how to write research project proposal with well-placed hypothesis and objectives.

CO 3 Learn the skills of research design, nature of sample size as well as collection and analysis of data.

CO 4 Know the skills of writing research report and making oral presentations.

CO 5 Understand the significance of studying different variables in a research study and its effects on the results obtained and the importance of the statistical analysis of the results. At the end the students will also be aware of different methodologies by which research can be effectively communicated.

CO 6 Understand methods used for bioinformatics studies.

CO 7 Comprehend the synthesis of nanomaterials and their applications in the field of biology and medicines.

CO 8 Appreciate the technological advances in the field of

nanobiotechnology and get fascinated with the advances in the research field and try to pursue them.

Gain proficiency in laboratory techniques in both Biochemistry and

Molecular Biology, and be able to apply the scientific method to the

processes of experimentation and Hypothesis testing

RUSBCH203

Fundamentals of Genetics

CO 1 Strengthen the fundamentals of Mendelian and neo-Mendelian genetics.

CO 2 Understand the structure of DNA & RNA

CO 3 Learn and apply concepts like epistasis, gene mapping, tetrad and Pedigree analysis which will be helpful in competitive examinations

CO 4 Acquire knowledge about Organization of DNA in genome

CO 5 Gain a thorough understanding of the mechanism of cell cycle, relationship of cell cycle and programmed cell death via intracellular and extracellular control mechanisms

CO 6 Know about mechanism of DNA replication which would lay a foundation for studying next processes of central dogma.

CO7 Enlist different types of mutations, agents causing mutations and disorders resulting from mutations.

Develop and enhance skills & improve employability through academic,

research and internship opportunities

RUSBCH204

Instrumentation and Analytical Techniques II

CO 1 Gain Knowledge about advanced instruments used in biochemical analysis.

CO 2 Comprehend the diagnosis of various diseases better by studying Instruments used in medicine.

CO 3 Acquire a sound background of latest methods used in biochemistry for purification of enzymes, isolation and

characterization of proteins, nucleic acids, etc.

CO 4 Develop interest in analysis of biomolecules and this will help them in undertaking further research in the area of biochemistry in any research/industrial institution.

Gain exposure to basic research through the provision of PG research

based project.

RPSBCH301

Biochemistry of Metabolism

CO 1 Understand the major catabolic and anabolic pathways in metabolism of carbohydrates, lipids, amino acids and nucleotides.

CO 2 Describe regulatory mechanisms that control the metabolic pathways.

CO 3 Realize the Influence of Diet and hormonal signalling on metabolic pathways.

CO 4 Learn Biochemical functions and integrated metabolism of in brain, digestive system, liver, red cell, muscle and adipocyte.

CO 5 Illustrate the molecular mechanisms underlying major inherited diseases of metabolism.

CO 6 Understand the relationship between the properties of macromolecules and cellular activities, cell metabolism and chemical composition.

Learn to work as a team as well as independently to compile and

interpret Biological data, carry out Research investigations and draw

conclusions

RPSBCH302

Clinical Biochemistry

CO 1 The student will learn and understand the basics of

system including haematopoiesis, homeostasis, and diseases of blood.

CO 2 Explain the fundamentals, composition and significance of Body fluids

CO 3 To get acquainted with the role of enzymes in diagnosis of various diseases.

CO 4 The student will be aware of the organ function tests available for detection of their functionality

CO 5 Illustrate Pathophysiology of certain disorders related to certain organs & Clinical tests available for detection

RPSBCH303

Molecular biology

CO 1 Understand the mechanism of cell cycle, relationship of cell cycle and programmed cell death via intracellular and extracellular control mechanisms

CO 2 The students will learn about nucleic acid as genetic information carriers, Possible modes of replication, and roles of helicase, primase, gyrase, topoisomerase, DNA Polymerase, DNA ligase, and Regulation of replication.

CO 3 The student will be able to illustrate the mechanism of prokaryotic and eukaryotic replications

CO 4 The student will learn & understand different types of mutations, agents causing mutations and disorders resulting from mutations.

CO 5 Comprehend the mechanism and regulation of transcription in prokaryotes along with Reverse transcription.

CO 6 The student will be able to describe synthesis of protein from gene with the help of regulatory protein

CO 7 The student will be able to explain the Post transcriptional & translational modifications & their significance in stability

RPSBCH304

Biology of diseases & Clinical Research

CO 1 The student will able to understand the cooperative relationship between Biochemistry and Medicine

CO 2 Learn the factors in the spread of infectious diseases & Explain biology and pathogenesis of infectious agents

CO 3 Describe the Immune responses of body against various pathogenic organisms

CO 4 Recognize the Biochemical aspect of cancer, Assays for diagnosis & treatment

CO 5 Understand the Physiology of cardiovascular diseases

CO 6 Realize the importance of drug development through clinical research

RPSBCH401

Nutritional Biochemistry

CO 1 The student will learn and understand the basic concepts of nutrition, and nutritional values of foods, and Basal metabolic rate and measurement of energy requirements.

CO 2 Deduce the dietary requirement of carbohydrates, lipids and proteins and their biological significance

CO 3 The course will also aid to learn the nutritional requirement and significance of dietary minerals like macroelements and microelements

CO 5 Understand the condition of malnutrition, its prevention, and recommended dietary allowances.

CO 6 Students will be learning topics like Introduction to nutrition, Macroelements, Microelements and Nutrigenomics, Nutritional disorders and Antinutritional Factors

RPSBCH402

Endocrinology

CO 1 Study the historical experiments that lead to the discovery of various hormones

CO 2 Deeply understand the communication between the nervous system and the endocrine system

CO 3 Learn the structure, functions and the disorders associated with the various hormones starting from the pituitary hormones to the gonadal hormones.

CO 4 Appreciate and analyze the endocrine regulation of the various metabolisms such as carbohydrate metabolism, Protein metabolism, calcium homeostasis, menstrual cycle, pregnancy and menopause.

CO 5 Apply the knowledge of hormones in assay of hormones such as T3, T4 and TSH and understand the strategy behind contraception.

CO 6 Present a case study on a hormonal and a metabolic disorder

RPSBCH403

Genetic Engineering & Biotechnology

CO 1 Acquire wide knowledge about Recombinant DNA technology by studying about various Vectors and Restriction Enzymes involved.

CO 2 Study of Various Expression Systems and Molecular Markers

CO 3 Apply the fundamental knowledge to understand Application of RDNA technology and use of Restriction enzymes in construction of various vectors and libraries such as c-DNA & Genomic libraries

CO 4 Recognize the importance of Screening of the libraries with the help of “ Reporter Genes” and Molecular Markers such as RFLP,RAPD, AFLP.

CO 5 Analyse and Interpret the knowledge about Genetic engineering and prospects of improving crop productivity, resistance, resistance to disease and environmental stresses, methods for production of transgenic animals.

CO 6 Develop innovative methods & Apply learned knowledge to their future research

RPSBCH404

Advanced immunology

CO 1 Learn the fundamental principles of immune response including molecular, biochemical and cellular basis of immune homeostasis

CO 2 Develop various aspects of immunological response and how its triggered and regulated

CO 3 Explain the specific interactions of Antigens and antibodies and the diversity of antibodies developed at the germ line DNA

CO 4 Complete knowledge of the molecular mechanisms and kinetics of the immune responses, both humoral and cell mediated immunity

CO 5 Enhance the knowledge of various immune-techniques ranging from precipitation and agglutination reactions to ELISA, Radio immunoassay and flow cytometry.

CO 6

The course will aid in understanding the principles of Graft

rejection, Auto immunity and Antibody based therapy.

Subject

Programme Specific Outcomes

Course Code

Paper Title

Course Outcomes

Msc Biotechnology

Perceive the fundamental and advanced concepts in depth in the areas of biochemistry, molecular biology, immunology, medical microbiology and applying the conceptual knowledge to address the real time problems and exploring plausible solutions.

RPSBTK101

Biochemistry

CO 1 Elucidate the concept of different types of complicated carbohydrate molecules ,their structure and analytical methods for detection

CO 2 Differentiate between biosynthesis of nucleic acids and its consequences in dysregulation ofit.

CO 3 Assess physiological significance of important co factors and molecules like lipids, peptides, endorphins, prostaglandins vitamins and co enzymes

CO 4 Discussdifferenttypesofinbornerrorsrelatedtometabolism,glycogen storage, amino acid metabolism, nucleic acidmetabolism

CO 5 Enumerate the concept of Neurobiology and establish a basic link to the immune system.

CO 6 Demonstrate practical skills in analyzying biomolecules in various biological samples and understand their significance.

Annotatethevastamount ofbiologicaldatabyretrieving,processing and analyzing through various tools of bioinformatics and biostatistics.

RPSBTK102

Immunology

CO 1 Elucidatetheconceptofantigenpresentationandrecognitionpatterns

CO 2 Analyze the basics,role and differentiate between complement pathways.

CO 3 CommentonroleandfunctionofCytokinesandcytokineprofillingand interprettheroleofoncogenesanddifferenttumorsofimmunesystem

CO 4 Discuss methods and procedure of safe sterile Vaccine development

CO 5 Criticize the path chosen by different effector molecules undervarious threats to immunesystem

CO 6 .Show the skills to develop,executeimmuno based assays

Criticize and assess the phases encountered from laboratory to premarketing stages in clinical research along with reviewing case studies.

RPSBTK103

Molecular Biology

CO 1 Construct the details of chromatin structure and its functional implications.

CO 2 Elucidate the basis of gene expression and basic control processes involved in it

CO 3 Comment on different post translational events , the underlying functional importance along with concepts of protein folding,transport and protein sorting

CO 4 Explain the techniques and principles involved in various next generation sequencing methods as an important aid the field of genomics

CO 5 Acquire the skills to perform advanced molecular biology techniquies

CO 6 Interpret the functionality and importance ofepigeneticsand RNA interference

Identify local and global environmental issues and establish

scientific strategies to devise economical solutions converging towards

sustainable development

RPSBTK104

Biophysical and

 biochemical techniques

CO 1 Summarize advanced and state of the art techniques with various types of electron microscopy.

CO 2 Compare different types of PCR and their applications.

CO 3 Enumerate different types of advanced molecular cloning methodology.

CO 4 Discuss on the variety of spectroscopic techniques with respect to molecular analysis

CO 5 Develop skills in handling and performing different chromatographic techniques.

CO 6 Analyze different aspects of immunological and histochemical techniques.

Comprehend the process of patent documentation .Employ the relevance of legal and ethical implications in intellectual property rights,

GMO ,developmental biology and other fields of biotechnology.

RPSBTK201

Metabolism

CO 1 Comment on the biosynthesis of various types of fatty acids and its significance and regulation.

CO 2 Explain the importance and levels of regulation of acid-base balance in body, their disorders and treatments

CO 3 Comprehend the various stress experienced by plants and their consequences on growth and metabolism.

CO 4 Interpret the role played by secondary metabolites in plant defence system

CO 5 Differentiate between the various carbon fixation cycles in plants and interaction of microbes with the environment.

CO 6 Elucidate the molecular structure and role of nitrogenase in the nitrogen cycle and importance of ammanox reactions in nature.

Outline,execute ,Analyze experimental procedures and research proposalthusamelioratetheirscientificwritingtemperamentandsoft skillsconsequentlyrefiningtheirabilitiestotroubleshootanyresearch problems.

RPSBTK202

Immunology

CO 1 Differentiate between different intricate aspects of various immunologicaldiseases.

CO 2 Comment on various factors involved in hypersensitivity reactionsand their emphasis ontreatment.

CO 3 Discuss the making and role of different types of vaccines

CO 4 Demonstrate the principle techniques and applications involved in in- vitro and in vivo imaging.

CO 5 Interpret how the psychology affect the immunological aspects of human body.

CO 6 Enumerate the implications of various disorders associated with dysregulation of pschyoneuroimmunology.

Deduce the underlying principle of nanotechnological and biotechnological processes and develop the skills to offer contemporary solutions.

RPSBTK203

Bioprocess Technology

CO 1 Explain the effect of process parameters on fermentation and their measurement and control.

CO 2 Differentiate between the rheological properties of various food textures.

CO 3 Comprehend on enzyme functions and reactions in food process.

CO 4 Analyze the role of microbes in processing the food and developing commercial food products.

CO 5 Summarize the mechanism of enzyme reactions in detail and the role of inhibitors on them.

CO 6 Elucidatethebasicmechanismofdifferenttypesofenzymesandtheir widespread applications.

RPSBTK204

Bioinformatics,phylo genetics and vitamins

CO 1 Classify different types of biological databases.

CO 2 Summarize about various computational methods and tools usedfor protein secondary structure prediction and genome

analysis

CO 3 Describe various sequence alignment tools and its significance.

CO 4 Identify and understand important terms in evolution and population genetics

CO 5 Compare different bioinformatic tools for phylogenetic analysis.

CO 6 Comprehend the sources,biological function and dietary disorder associated with water soluble and fat soluble vitamins.

RPSBTK301

ATC and PTC

CO 1 Discuss the basic requirements of a tissue culture laboratory

CO 2 Design and carry out minor experiments in PTC, ATC following the required norms and protocols

CO 3 Make use of the safety and precaution controls in these labs

CO 4 Formulate and conduct simple experiments in ATC, PTC labs

CO 5 Apply different preservation techniques in ATC and PTC

CO 6 Formulate and illustrate the essential methodologies in ATC and PTC

RPSBTK302

Medical Microbiology

CO 1 Explain the basics of medical microbiology

CO 2 Comment and appreciate the significance of this field

CO 3 Develop an understanding of various disease related issues of medical microbiology

CO 4 Analyse and interpret the molecular techniques involved in medical microbiology

CO 5 Formulate and develop molecular diagnostic techniques for various infections

CO 6 Determine the role of biofilms in the field of medicine

RPSBTK303

GMO and Environment

CO 1 Explain the importance GMOs and GM crops

CO 2 Elaborate on the development of GMOs to date

CO 3 Describe the use of genetic modification in agriculture

CO 4 Discuss the potential risks & benefits of human activities on the environment

CO 5 Discuss the potential risks & benefits associated with GMO crop consumption

CO 6 Articulate the concept of bioremediation of waste from different industries

RPSBTK304

Developmental Biology

CO 1 Apply the key principles of developmental biology toward evaluating and analyzing primary literature in the field.

CO 2 Explain significant concepts including mechanisms by which

differential gene activity controls development, mechanisms that

determine cell fate and mechanisms that ensure consistency and

reliability of development.

CO 3 Summarize the post fertilization events.

CO 4 Explain the molecular mechanisms of sex hormone.

CO 5 Discuss the immunology of pregnancy.

CO 6 Appraise and criticize the ethical issues in embryo research.

RPSBTK401

Nanotechnology

CO 1 Discuss the basics of nanotechnology, tools used for characterizing nanomaterials and specific applications of nanotechnology

CO 2 Examine the nanorobotics devices of nature

CO 3 Analyseandinterpretthelatestdevelopmentsinnanotechnologyinthe field of medicalsciences

CO 4 Explain drug delivery system using nanotechnology

CO 5 Apply nanomaterials in food, cosmetics, agriculture, environment management

CO 6 Assess and appreciate the thrust in this science and feel encouraged to take it ahead in research

RPSBTK402

IPR & protection of inventions

CO 1 Elaborate on the rules and regulations for patenting

CO 2 Distinguish between copyright, Trademark, GI and Industrial designs

CO 3 Interpret different case laws in biotechnology

CO 4 Discuss the roles and responsibilities of the patent officer and the institution

CO 5 Examine various patent applications

CO 6 Summarize the various case studies associated

RPSBTK403

Clinical Studies

CO 1 Discuss the ethical issues in human subjects research

CO 2 Imagine and understand the different phases of clinical trials

CO 3 Analyse the roles and responsibilities of the investigator and the institution

CO 4 Examine various regulatory issues related to clinical studies

CO 5 Recall the companies and organizations associated in this field

CO 6 Develop interest on medical writing and design a clinical study report

RPSBTK404

Biostatistics

CO 1 Calculate standard normal scores and resulting probabilities

CO 2 Interpret and explain a p-value

CO 3 Perform a two-sample t-test and interpret the results; calculate a 95%

confidence interval for the difference in population means

CO 4 Discuss and interpret results from Analysis of Variance (ANOVA), a technique used to compare means amongst more than two

independent populations

CO 5 Analyse and interpret relative risks and odds ratios when comparing

two populations

CO 6 Evaluate correlation and regression

Subject

Programme Specific outcomes

Course Code

Paper Title

Course Outcomes

BOTANY

A student completing Masters in Science program in the subject of Botany will be able to:

Upon successful completion of the courses, learners will be able to;

SPECIALISATION: MOLECULAR BIOLOGY, CYTOGENETICS AND PLANT BIOTECHNOLOGY

PSO 1 Gain adequate knowledge on major groups of plants -Cryptogams to Phanerogams, learn the inter-relationships, phylogeny and evolutionary concepts , biodiversity in relation to habitat correlate with climate change, land and forest degradation and Paleobotany to trace the evolution of plants

RPSBOT101

PLANT DIVERSITY – I

1. Understand the morphology, structure, reproduction, classification and evolution of Algae and Fungi.

2. Comprehend the detailed study of commercial cultivation technologies and industrial application of Algae.

3. Gain knowledge of plant diseases, identify and apply suitable control measures in an environmentally sustainable manner.

4. Apply the fundamental knowledge of importance of fungi in various fields.

PSO 2 Comprehend the concepts of plant taxonomy with respect to principles of ICN, evolution, concept of characters and methods to illustrate evolutionary relationships. Familiarize with the latest classification system and role of BSI

RPSBOT102

PLANT DIVERSITY- II

1. Develop critical understanding about the classification of Bryophytes and Pteridophytes as wellas their origin and evolution..

2. Outline the economic importance of Bryophytes and Pteridophytes.

3. Demonstrate the cultivation techniques and maintenance of ornamental ferns.

4. Understand the structures of fossil forms and correlate the same in evolutionary studies..

5. Develop critical understanding about the classification of Gymnosperms and comprehend the affinities and interrelationships between various orders

6. Differentiate between gymnosperms and angiosperms, as well as their origin and evolution in various eras.

PSO 3 Gain core knowledge of foundational concepts of anatomy, developmental botany, ultra structure and function of cell membranes cyto-genetics, physiology and ecology and their applicaton in contemporary research/biological systems

RPSBOT103

DEVELOPMENTAL BOTANY AND RESEARCH METHODOLOGY

1. Understand the fundamentals of the development of male and female gametophytes, embryo and fertilization.

2. Understand the structure of Angiosprm pollen and analyze the special relationships of pollen grains in pollen tetrads as well as the phylogeny of Angiosperm pollen

3. Apply palynological information to plant systematics, agriculture and horticulture

4. Develop the ability to design a research project and prepare a work plan.

5. Recognise the resources for accessing scholarly articles, published papers, abstract writing and bibliographic management.

6. Understand methods of data collection, tools for data analysis and ethical issues in educational research.

PSO 4 Critically evaluate the functioning of organisms at the genomic and cellular level, Relate physiological adaptations, development and reproduction of higher plants.

RPSBOT104

INSTRUMENTATION AND TEHNIQUES

1. Understand the principles, working and applications of centrifugation and chromatography.

2. Apply the principles, working and applications of fluorescence microscopy, electron microscopy and spectroscopy..

3. Apply electrophoretic techniques for separation of macromolecules.

4. Understand the basic principles of tracer techniques and PCR and their applications

5. Understand the science behind the preparation of various buffers and its applications in experiments.

PSO 5 Outline the utilization of various plant groups, ethnobotanical aspects, active constituents and medicinal uses of plants with special reference to usage as mentioned in different Pharmacopoeia.

RPSBOT201

PLANT DIVERSITY- II

1. Understand Rules of nomenclature according to ICN.

2. Comprehend evolutionary relationships among Angiosperms, learn concept of character weghing, methods of illustrating evolutionary relationships

3. Understand the basic concepts in anatomy regarding origin of tissue systems and organogenesis.

4. Demonstrate wood primitive and evolved wood elements and photosymthetic systems in leaves

5. Classify plants to their respective families based on morphological and palynological characters.

PSO 6 Apply the skills in handling scientific instruments in planning and executing biological research, demonstrate proficiency in the experimental techniques and methods of analysis appropriate for their area of specialization

RPSBOT202

PLANT PHYSIOLOGY- I

1. Compare and contrast photosynthetic pathways involved in Eukaryotes and Prokaryotes.

2. Understand protein dynamics

3. Comprehend plant hormone production, utilization and destruction.

4. Discuss and apply the physiological processes of plants.

PSO 7 Apply the principles of biostatistics and bioinformatics in biological research, evaluate the scientific content, apply the scientific methods in formulating hypothesis and data analysis.

RPSBOT203

PLANT PHYSIOLOGY- II

1. Develop a deeper understanding of responses of plants to abiotic and biotic stresses.

2. Distinguish key physiological processes underlying seed germination.

3. Analyze the physiological factors that regulate growth and development processes of plants.

4. Understand the basic concepts of population ecology and biogeography.

5. Develop a deeper understanding of ecological principles and apply the same for conservation methodologies.

PSO 8 Apply the technique of plant tissue culture for the propagation of the plants which is the need in the society /industry, apply the methods of in vitro techniques for product enhancement

RPSBOT204

CURRENT TRENDS IN BOTANY

1. Understand basic principles of traditional forms of medicine and therapeutic value of medicinal plants and Indian plant foods.

2. Critically evaluate medicinal herbs for quality parameters and adulterants.

3. Develop a deeper understanding of different forms of IPR’s, procedures and process of patent filing, the need for protection of traditional knowledge

4. Apply biostatistical tools in order to collect, tabulate, analyze and interpret data and develop competence in hypothesis testing.

5. Apply tools of bioinformatics in retrieving, aligning sequences, in order to derive sequence properties, elucidate structures and relate it with function.

PSO 9 Apply the fundamentals of Nanotechnology, Environmental biotechnology and food biotechnology in various fields

RPSBOT301

TECHNIQUES AND INSTRUMENTATION I

1. Apply biostatistical tools inorder to collect, tabulate, analyze and interpret data and develop competence in hypothesis testing.

2. Apply tools of bioinformatics in retrieving, aligning sequences, inorder to derive sequence properties, elucidate structures and relate it with function.

3. Understand the science behind the preparation of various buffers and its applications in experiments.

4. Apply electrophoretic techniques for separation of macromolecules

5. Understand the principles, working and applications of centrifugation

PSO 10 Understand and Apply the techniques of plant breeding procedures for hybridization,stress tolerance and genetic engineering of plants.

RPSBOT302

MOLECULAR BIOLOGY I

1. Develop basic understanding of cellular and molecular biology, understand various molecular mechanisms of replication, RNA processing and translation.

2. Distinguish between molecular mechanisms of prokaryotes and eukaryotes.

3. Gain insights about recent advances in molecular biology.

4. Build a career in the field of molecular biology.

PSO 11 Develop critical and logical thinking capacity and prepare themself to qualify various competitive exams like MPSC, UPSC,SET, GATE, CSIR and UGC NET

RPSBOT303

PLANT BIOTECHNOLOGY I

1. Understand the basic concepts, technical skills, hands-on experience and training in plant tissue culture.

2. Develop competency in production and enhancement of secondary metabolites

3. Understand advanced methods of biotransformation for product enhancement

4. Apply the fundamental principles of transgenic plants in phytoremediation and in vitro germ plasm conservation.

5. Understand the basic principles of effective bioreactor design for large scale production of metabolites.

RPSBOT304

MOLECULAR BIOLOGY AND CYTOGENETICS I

1. Understand the structure of the cell membrane, its function, regulatory aspects of cell division and PCD.

2. Gain knowledge about the nature, development and causes of cancer.

3. Acquire knowledge about the components of the immune system and applications in health care.

4. Apply the knowledge of genetic disorders for genetic counseling and therapy.

5. Understand the concept of various biochemical, sex linked and cardiovascular disorders.

RPSBOT401

TECHNIQUES AND INSTRUMENTATION II

1. Apply the principles, working and applications of fluorescence microscopy, electron microscopy and spectroscopy

2. Understand the principles, working and applications of chromatography

3. Understand the basic principles of tracer techniques and PCR and their applications.

4. Interpret the role of membrane biophysics in human disease research.

5. Demonstrate the isolation and characterization of plant membranes.

6. Gather knowledge about plant research in microgravity.

RPSBOT402

MOLECULAR BIOLOGY II

1.Compare expression of gene regulation in prokaryotes and eukaryotes.

2. Understand the working of the operon.

Students will be exposed to the basics of cell signaling and can classify different forms of signaling.

3. Understand the concepts of “omoics”

4. Analyze different signaling pathways which play an important role in metabolism and development of the organism.

5. Apply this knowledge in various research fields.

RPSBOT403

PLANT BIOTECHNOLOGY II

1. Develop ideas and technologies to increase production and use of biofuels and biological source of energy.

2. Develop a deeper understanding of different forms of IPR’s, procedures and process of patent filing, the need for protection of traditional knowledge

3. Understand the rapidly developing field of nanotechnology and developing skills for advanced research endeavors in nanotechnology.

4. Understand the pros and cons of nanotechnology and applicability of the same in various fields.

5. Comprehend the requirement and technologies involved in food biotechnology and implementation of quality control parameters.

RPSBOT404

MOLECULAR BIOLOGY AND CYTOGENETICS II

1. Understand the fundamental aspects of plant breeding and hybridization along with the latest molecular techniques.

2. Apply plant breeding principles for large scale production of high yielding, abiotic and biotic stress resistant plants in agriculture and horticulture.

3. Outline various applications and achievements of distant hybridization in crop improvement.

4. Apply DNA-based molecular marker aided breeding techniques in plant genetic engineering.

5. Explore the major contributions of plant breeding institutes in India.

Subject

Programme Specific outcomes

Course Code

Paper Title

Course Outcomes

M.Sc (CHEMISTRY)

PSO 1 Acquire in-depth knowledge of the advance concepts in the branch of specialization viz, Physical , Inorganic , Organic & Analytical.

RPSCHE101

PHYSICAL CHEMISTRY

CO 1 Derive Maxwell equations and understand their significance.

CO 2 Connect quantum mechanical operators to observables.

CO 3 Calculate probabilities, amplitudes, averages values of the observables.

CO 4 Derive rate laws of different types of the reactions.

PSO 2 Design and carry out analysis as well as accurately record and analyse the results.

RPSCHE102

INORGANIC CHEMISTRY

CO 1 Comprehend the derivation of different hybridizations such as sp, sp2, sp3 using sigma bonding concept.

CO 2 Recognize the concept of MOT and how MOT is constructed for polyatomic molecules.

CO 3 Know how the physical properties like melting and boiling points of molecules get affected by chemical forces present in it.

CO 4 Understand Symmetry operations and Symmetry elements.

CO 5 Differentiate Abelian and Non-abelian point groups.

CO 6 Use of Great Orthogonality Theorem for construction of character table.

CO 7 Examine chemical bonding, visualizing molecular orbitals, behaviour of atoms, molecules and solids using group theory.

CO 8 Know the importance of Material Chemistry and its potential in developing applications, either by compositional control to optimize properties or by fabrication into desired forms, shapes or products.

CO 9 Recognize the importance of Stability as we all seek to achieve stability including molecules.

CO 10 Aware of the various methods/ techniques used to detect complex formation between metal and ligand.

CO 11 Interpret the electronic spectra of octahedral and square planar complexes.

CO 12 Calculate the various spectral parameters using correlation diagram and spectra.

PSO 3 Explain the findings and share the results with scientists and non scientist with the help of the written and oral communication skills acquire during the course.

RPSCHE103

ORGANIC CHEMISTRY

CO 1 Know the kinetic and thermodynamic requirements of organic reactions and a few methods to determine the reaction mechanisms.

CO 2 Recognize the factors affecting acidity and basicity.

CO 3 Understand advanced nucleophilic substitutions with special emphasis on Neighbouring Group Participations (NGP) and factors affecting the NGP.

CO 4 Identify structural, thermochemical, and magnetic criteria for aromaticity, including NMR characteristics of aromatic systems.

CO 5 Comprehend the concept of chirality, Molecules with tri- and tetra-coordinate centres, Axial and planar chirality and prochirality.

CO 6 Explore the applications of different oxidizing and reducing agents in organic reactions.

PSO 4 Apply the skills to do specialized research in the core and applied areas of chemical sciences.

RPSCHE104

ANALYTICAL CHEMISTRY

CO 1 Identify the relationships among the different instrument components and the flow of information from the characteristics of the analyte through the components to the numerical or graphical output produced by the instrument.

CO 2 Determine the different types of errors in chemical analysis.

CO 3 Make use of calibration curve and standard addition method to carry out quantitative analysis of sample.

CO 4 Outline the role and importance of total quality management, safety, accreditations and GLP in industries.

CO 5 Apply the knowledge learned to all scientific data analyses during their studies and future career-related activities.

CO 6 Explain the working principle and Enlist the applications of UV visible and IR spectroscopy.

CO 7 Elaborate on the basic principle underlying the different types of thermal methods and will understand how these methods are employed in industries and research for characterization of sample.

CO 8 Compare the technique of DTA with DSC.

CO 9 Comprehend the utility of automation in chemical analysis.

CO 10 Outline the Objectives of automation in chemical analysis.

CO 11 Enlist the advantages and disadvantages of Automatic Analysis.

PSO 5 Explore new areas of research in chemistry and allied fields of science and technology.

RPSCHE201

PHYSICAL CHEMISTRY

CO 1 Distinguish between physical and chemical adsorption.

CO 2 Predict spontaneous nature of thermodynamic mixing.

CO 3 Calculate energy of hydrogen atom.

CO 4 Draw the atomic orbital and locate radial and angular nodes.

CO 5 Derive rate laws for the solid-state reaction.

CO 6 Analyse the effect of inhibitor on enzyme catalysed reaction.

CO 7 Draw phase diagram for two and three component system.

PSO 6 Demonstrating the developed skills such as problem solving approach , critical thinking , analytical reasoning ,team work and effective communication for solving the applied research problems related to their field.

RPSCHE202

INORGANIC CHEMISTRY

CO 1 Analyse the reaction pathways of metal complexes and to develop a deeper understanding of their mechanisms.

CO 2 Know the rate behaviour of the reaction using reaction mechanism.

CO 3 Recognize the general shape of the transition state using trans effect, steric effect and stereochemistry of the coordination complexes.

CO 4 Illustrate the importance of 18 and 16 electron rules.

CO 5 Understand the structure and bonding involved in d block Organometallic compounds on the basis of VBT and MOT.

CO 6 Critically review environmental issues as a matter of widespread public concern.

CO 7 Know the toxicology of certain elements through case studies.

CO 8 Identify the importance of essential elements for the organisms.

CO 9 Evaluate the role of metal ions in biological systems.

PSO 7 Explain why chemistry plays an integral role in addressing social , economic and environmental problems.

RPSCHE203

ORGANIC CHEMISTRY

CO 1 Correlate between kinetically and thermodynamically formed enolates and the factors affecting their formation.

CO 2 Understand the interaction of carbon nucleophiles with carbonyl groups and its reaction mechanism.

CO 3 Draw the mechanism and stereochemistry (if applicable) of various rearrangement reactions.

CO 4 Apply Molecular orbital theory to organic molecules with special emphasis on the FMO theory

CO 5 Make use of advanced application of UV, IR and NMR spectroscopy techniques in structural elucidation of molecules.

CO 6 Know the concept of McLafferty Rearrangement and its implications on Fragmentation pattern of molecules.

PSO 8 Become professionally skilled for higher studies in research institutions and to work in industries.

RPSCHE204

ANALYTICAL CHEMISTRY

CO 1 Utilize GC & HPLC techniques for separation of the different components present in a sample.

CO 2 Make use of X-ray spectroscopy for qualitative and quantitative analysis of elements.

CO 3 Describe the function of different components of a mass spectrometer.

CO 4 Elaborate on the methods of electrogravimetry and coulometry.

CO 5 Compare the advantages/disadvantages of electrogravimetry and coulometry.

CO 6 Describe the functioning of different types of ion selective electrodes.

CO 7 Select the best method from among those covered in these units while carrying out analysis of a sample and will be able to justify their choice.

M.Sc (PHYSICAL CHEMISTRY)

RPSCHEP301

Polymer, Surface & Photochemistry

CO 1 Determine molar mass of polymers using different methods.

CO 2 Distinguish the various types of polymers.

CO 3 Classify the surfactants by their process of formation.

CO 4 List the various applications of surfactant in different fields.

CO 5 Illustrate the various deactivation processes of molecular excited states.

CO 6 Describe the photochemical reactivity of ethenes and carbonyl compounds.

CO 7 Explain the application of Fluorescence Phenomena.

RPSCHEP302

Advanced Instrumental Techniques

CO 1 Make use of the basic working principles of surface analytical techniques (such as SIMS, PIXE) electron spectroscopy and Nuclear Quadrupole Resonance for different applications.

CO 2 Assess hyphenated techniques and the different types of interfaces that are used to achieve this hyphenation.

CO 3 Apply principles of the thermal methods and radiochemical methods for different applications.

CO 4 Develop a working knowledge of various methods used in Voltammetry.

CO 5 Explain anodic, cathodic and adsorptive stripping methods in voltammetry.

CO 6 Select a suitable method of voltammetry for the analysis of a particular sample

RPSCHEP303

Atomic and Molecular: Structure and Spectroscopy

CO 1 Solve the Schrodinger equation for complex system.

CO 2 Compare different theories of Molecule formation

CO 3 Discuss the general principles and theory of spectroscopy

CO 4 Summarize applications of various types of spectroscopic methods.

RPSCHEPEC-I-304

Nano-chemistry, Applied Electrochemistry, Statistical Mechanics & Nuclear Chemistry

CO 1 Perceive the concept of nanomaterials and preparation of various nanomaterials for the research in material science

CO 2 Develop the concept of electrochemistry in energy creation which is need of new age by fuel cells, batteries

CO 3 Apply the concept of probability to the thermodynamic properties at micro level

CO 4 Prove derivation of Maxwell-Boltzmann, Fermi-Dirac statistics.

CO 5 Build knowledge of particle accelerators work viz. Linear, cyclotron.

CO 6 Comprehend the concept of nuclear model’s Liquid drop, Fermi gas, Shell, Optical etc.

CO 7 Apply knowledge of nuclear radiations in pharma, geology, industry for various applications

RPSCHEPEC-II-304

Modern Methods in Instrumental Analysis

CO 1 Make use of principles of reflectance methods, photoacoustic spectroscopy, Chemiluminescence methods, and polarimetry for various applications.

CO 2 Discuss advantages of modified electrodes over the classical polarographic methods.

CO 3 Develop a working knowledge of various methods used in modern voltammetry.

CO 4 Outline enhanced Raman spectroscopy techniques, namely Surface Enhanced Raman and Resonance Raman Spectroscopy.

CO 5 Interpret mass spectra of molecules, recognize metastable ion peaks, and correlate peak presence with possible fragmentation mechanisms to arrive at the structure.

RPSCHEP401

CHEMISTRY: POLYMER, GREEN, BIOPHYSICAL AND APPLIED.

CO 1 Elaborate Macromolecule, their properties and its characterization.

CO 2 Account for the fundamental background of Density Functional Theory

CO 3 Prove Hohenberg-Kohn theorems and their application.

CO 4 Apply photo physical kinetics of unimolecular and bimolecular processes using Stern-Volmer kinetics.

CO 5 Appraise physical chemistry involved in biological process.

CO 6 Measure thermodynamic parameters for different interactions that are important for the formation of structures in biological systems.

CO 7 Compare the different techniques of electrophoresis

CO 8 Discuss important uses of the solar cell.

RPSCHEP402

Material Sciences and Non-equilibrium Thermodynamics

CO 1 Relate concept of bonding for structure of crystalline solids.

CO 2 Explain different types of lattices, unit cells and defects in crystal in detail.

CO 3 Assess structure determination by powder diffraction and single crystal X-ray diffraction.

CO 4 Develop concept of lasers in chemistry, its generation, characteristics and types of lasers.

CO 5 Describe applications of lasers in chemistry such as spectroscopy, isotope separation, and kinetics of fast reactions.

CO 6 Make use of Band theory for working of superconductors and magnetic properties.

CO 7 Explain second law of thermodynamics at non-equilibrium i.e. entropy production and rate. Also, comprehend principle of microscopic reversibility and transport phenomena across membranes.

RPSCHEP403

Symmetry, Spectroscopy and Catalysis

CO 1 Describe the selection rule for infrared-active transitions.

CO 2 Determine whether the molecular vibrations of a triatomic molecule are Raman active.

CO 3 Analyse the hybridization of given compounds.

CO 4 Explain concepts of equivalent and non-equivalent hydrogens.

CO 5 Assess effect of structure on chemical shift and coupling constants.

CO 6 Elucidate the electronic structure of free radicals and paramagnetic transition metal complexes.

CO 7 Comprehend magnetic properties of the materials and its order of orientations.

RPSCHEPOC-I-404

INTELLECTUAL PROPERTY RIGHTS & CHEMINFORMATICS

CO 1 Relate concept of intellectual property and the terms involved with respect to Indian Patent Law.

CO 2 Distinguish between patents and copyrights.

CO 3 Compare the economic impact and legislature involved in Intellectual property rights.

CO 4 Build knowledge about software tools pertaining to Cheminformatics and Molecular Modelling.

CO 5 Determine structure and sub-structure search online, determine SMILES codes for various molecules.

CO 6 Summarize knowledge about the application of the research-based tools.

RPSCHEPOC-II-404

RESEARCH METHODOLOGY

CO 1 Perceive basics of research methodology

CO 2 Conduct research by developing a problem

CO 3 Develop research paper writing, study formats of existing research papers and review papers

CO 4 Appraise importance of lab-safety and the safety protocols in R&D laboratories.

M.Sc (INORGANIC CHEMISTRY)

RPSCHEI301

Solid State Chemistry

CO 1 Predict the structures of some known type of compounds based on their stoichiometry like AB, AB2 etc.

CO 2 Classify the oxides based on structure whether inverse, normal or random and how the polyhedra forms by sharing its corner, edge or face.

CO 3 Have a clear distinction between Perfect and imperfect crystals and how these defects lead to change the properties of solids.

CO 4 Be well versed with the methods available to synthesize the inorganic solids based on the compositions.

CO 5 Identify the importance of Single Crystal and its method of preparation.

CO 6 Understand the behavior studies of solids using diffusion as property. Applications of Liquid Crystals.

RPSCHEI302

ADVANCED INSTRUMENTAL TECHNIQUES

CO 1 Make use of the surface analytical techniques (such as SIMS, PIXE) for obtaining information about the surfaces while characterizing the samples.

CO 2 Enlist the advantages of development of hyphenated techniques and will be able to explain the different types of interfaces that are used to achieve this hyphenation.

CO 3 Apply the principle underlying spectro-electrochemistry & the use of optically transparent electrodes to carry out the analysis of samples.

CO 4 Elaborate on the essential principles underlying the applications of thermal methods and radiochemical methods.

CO 5 Develop a working knowledge of various methods used in Voltammetry.

CO 6 Explain anodic, cathodic and adsorptive stripping methods in voltammetry.

CO 7 Select a suitable method of voltammetry for the analysis of a particular sample.

RPSCHEI303

BIOINORGANIC AND COORDINATION CHEMISTRY

CO 1 Outline the role of Iron, Zinc, Manganese and Nickel in different biological processes.

CO 2 Illustrate the reactivity of Lewis acids and bases and Classification based on Frontier Molecular Orbital concept.

CO 3 Know the different features of groups from 13-17 with respect to the acidity.

CO 4 Predict the strength, hardness and softness of acids and bases.

CO 5 Be well versed with the Latimer, Pourbaix and Frost diagrams.

CO 6 Explain the different routes of synthesizing coordination complexes.

CO 7 Differentiate between sigma and pi bonding of coordination complexes and geometries of tetrahedral and octahedral.

CO 8 Rationalize the chiral and fluxional behavior of coordination complexes.

RPSCHEIEC-I-304

APPLIED CHEMISTRY - I

CO 1 Have a clear idea of the some important inorganic chemicals and materials and their application in day to day life.

CO 2 Explain the process by which metals are extracted, recovered and recycled.

CO 3 Be well versed with the inorganic chemicals or materials used in pharmaceuticals.

CO 4 Outline the importance of environment monitoring and assessment.

CO 5 Have an idea about the different aspects of environmental legislation pertaining to e-waste, Forest Act and plastic manufacture.

RPSCHEIEC-II-304

APPLIED CHEMISTRY - II

CO 1 Synthesize nanomaterials by choosing an appropriate method out of the various methods learned.

CO 2 Prepare some of the industrially important inorganic chemicals and materials used in day to day life.

CO 3 Explain the PUREX process used for the recovery of Uranium & Plutonium from spent nuclear fuel.

CO 4 Be well versed with the super heavy elements and its importance in Chemistry.

CO 5 Elaborate on the importance of Safety in Chemical Laboratory.

CO 6 Have an idea about the Environment Protection act.

RPSCHEI401

SOLID STATE CHEMISTRY AND MOLECULAR SPECTROSCOPY

CO 1 Understand the electrical properties of inorganic solids and how these materials can be used as superconductors.

CO 2 Outline the importance of inorganic materials in making batteries and sensors.

CO 3 Make use of hopping model to describe the carrier transport in a disordered semiconductor or in amorphous solid.

CO 4 Know transition metal oxides such as spinels, garnets and the strength of magnets.

CO 5 Elaborate on the thermal properties and optical behaviour of inorganic solids.

CO 6 Know the different models available to understand optical properties of inorganic solids.

CO 7 Elucidate the structure by powder diffraction and single crystal X-ray diffraction patterns.

CO 8 Determine the crystal structure using X-ray diffraction.

CO 9 Comprehend the general principles and theory of spectroscopy.

CO 10 Grasp the specialties and applications of various types of spectroscopic methods.

RPSCHEI402

ORGANOMETALLIC AND MAIN GROUP CHEMISTRY

CO 1 Discuss classification of clusters and different structural patterns of metal clusters.

CO 2 Explain how low nuclearity clusters differ from high nuclearity clusters and capping rules in metal clusters.

CO 3 Be well versed with the Synthesis of various palladium Coupling complexes and its properties along with applications.

CO 4 Enlist the Homogenous and heterogeneous catalytic applications of organometallic compounds in various industrial fields.

CO 5 Explain the preparation methods and properties of silicates, inorganic polymers.

RPSCHEI403

SYMMETRY, SPECTROSCOPY TECHNIQUES AND CATALYSIS

CO 1 Describe the selection rule for infrared-active transitions.

CO 2 Determine whether the molecular vibrations of a triatomic molecule are Raman active.

CO 3 Analyse the hybridization of given compounds.

CO 4 Understand the concepts of equivalent and non-equivalent hydrogens.

CO 5 Identify the effect of structure on chemical shift and coupling constants.

CO 6 Elucidate the electronic structure of free radicals and paramagnetic transition metal complexes.

CO 7 Illustrate the magnetic properties of the materials and its order of orientation.

RPSCHEIOC-I-404

INTELLECTUAL PROPERTY RIGHTS & CHEMINFORMATICS

CO 1 Be well versed with the concept of intellectual property and the terms involved with respect to Indian Patent Law.

CO 2 Distinguish between patents and copyrights.

CO 3 Elaborate on the economic impact and legislature involved in Intellectual property rights.

CO 4 Make use of the software tools pertaining to Cheminformatics and Molecular Modelling.

CO 5 Conduct structure and sub-structure search online, determine SMILES codes for various molecules.

CO 6 Gain knowledge about the application of the research-based tools.

RPSCHEIOC-II-404

RESEARCH METHODOLOGY

CO 1 Know basics of research methodology.

CO 2 Get the technical know-how of research from developing a problem.

CO 3 Write a research paper, study formats of existing research papers and review papers.

CO 4 Be aware about importance of lab-safety and the safety protocols in R&D laboratories.

M.Sc (ORGANIC CHEMISTRY)

RPSCHEO301

THEORETICAL ORGANIC CHEMISTRY-I

CO 1 Predict pathways of reaction mechanism and stability of intermediates.

CO 2 Study of stereochemistry of pericyclic reactions.

CO 3 Determine point groups based on symmetry elements and carry out conformational analysis of ring compounds.

CO 4 Understand photochemical reactions with special reference to cleavage of carbonyl compounds and photochemistry of olefins.

RPSCHEO302

SYNTHETIC ORGANIC CHEMISTRY-I

CO 1 Write mechanism for various named reactions, including Multicomponent reactions and Click reactions.

CO 2 Predict the product formed in the above reactions.

CO 3 Give the method for preparing synthetically important compounds involving radicals.

CO 4 Give the method for preparing synthetically important compounds via enamines and ylides.

CO 5 Understand and explore the application of various metals and non metals in organic synthesis.

RPSCHEO303

NATURAL PRODUCT AND SPECTROSCOPY

CO 1 Know basic structural elucidation of carbohydrates, organic pigments and alkaloids.

CO 2 Understand the synthetic strategies towards the synthesis of important biologically active molecules.

CO 3 Develop a problem solving approach towards the structural elucidation from spectral data.

RPSCHEOEC-I-304

MEDICINAL, ENZYMES AND GREEN CHEMISTRY

CO 1 Know basic terms involved in medicinal chemistry, procedures involved in drug design and factors affecting the activity and potency of a particular drug,

CO 2 Understand the effect of Structure-Activity Relationship on drug function and the concept of prodrugs.

CO 3 Summarize the twelve principles of Green Chemistry and study their applications in synthetic organic chemistry.

RPSCHEOEC-II-304

BIORGANIC CHEMISTRY

CO 1 Develop a deeper understanding in the Chemistry of Proteins and Nucleic Acids.

CO 2 Infer the effect of physical parameters on the structure and function of nucleic acids.

CO 3 Apply the basic concepts of organic reaction mechanism to enzyme action and the action of coenzymes.

CO 4 Understand the biomimetic approach towards enzyme activity.

CO 5 Understand the various pathways towards the biosynthesis of important molecules and predict their pathways of synthesis.

RPSCHEO401

THEORETICAL ORGANIC CHEMISTRY-II

CO 1 Correlate the effects of substituent’s on a substrate with its reactivity.

CO 2 Understand the concept of molecular assembly and intermolecular bond in macromolecules and their effects on their catalytic activity.

CO 3 Determine enantiomeric and diastereomeric compositions using various available methods.

CO 4 Understand the properties of molecules by studying physical phenomenon like Circular Dichroism (CD) and Optical Rotatory Dispersion (ORD).

CO 5 Discuss the types of Assymetric Synthesis controlled by Chiral Auxiliary, chiral catalyst, chiral substrate and chiral reagent with examples .

CO 6 Appreciate the importance and challenges in asymmetric synthesis, exemplified by Felkin-Anh and chelation models and asymmetric aldol reactions.

RPSCHEO402

SYNTHETIC ORGANIC CHEMISTRY-II

CO 1 Propose a reterosynthetic strategy for an organic compound.

CO 2 Give the forward synthesis, recognizable starting material and steps involved in the synthesis of the compound.

CO 3 Know the current trends in synthesizing organic compound.

CO 4 Explore the applications of modern and greener methods of organic synthesis.

CO 5 Understand the application of transition metal reagents and catalysts in organic synthesis.

CO 6 Know the use of electrochemical methods for organic synthesis.

RPSCHEO403

NATURAL PRODUCT AND HETEROCYCLIC CHEMISTRY

CO 1 Understand the occurrence and biological roles of steroids, vitamins, terpenoids and antibiotics.

CO 2 Have an enhanced approach towards structural elucidation.

CO 3 Apply the rules of IUPAC nomenclature and other methodologies towards nomenclature of heterocycles.

CO 4 Understand the reactivity of various heterocyclic molecules and their importance towards synthesis of certain biologically active molecules.

RPSCHEOOC-I-404

INTELLECTUAL PROPERTY RIGHTS & CHEMINFORMATICS

CO 1 Be well versed with the concept of intellectual property and the terms involved with respect to Indian Patent Law.

CO 2 Distinguish between patents and copyrights.

CO 3 Elaborate on the economic impact and legislature involved in Intellectual property rights.

CO 4 Make use of the software tools pertaining to Cheminformatics and Molecular Modelling.

CO 5 Conduct structure and sub-structure search online, determine SMILES codes for various molecules.

CO 6 Gain knowledge about the application of the research based tools.

RPSCHEOOC-II-404

RESEARCH METHODOLOGY

CO 1 Know basics of research methodology.

CO 2 Get the technical know-how of research from developing a problem.

CO 3 Write a research paper, study formats of existing research papers and review papers.

CO 4 Be aware about importance of lab-safety and the safety protocols in R&D laboratories.

M.Sc (ANALYTICAL CHEMISTRY)

RPSCHEA301

QUALITY IN ANALYTICAL CHEMISTRY

CO 1 Elaborate on the concept of Sampling and various methods involved in sample preparation and storage.

CO 2 Select the best method out of all the methods available for the analysis of samples.

CO 3 Calculate the uncertainty involved in a measurement.

CO 4 Describe the sources & different methods used for the enhancement of signal to noise ratio.

CO 5 Apply the parameters involved in method validation for developing a new method for the analysis of a sample.

CO 6 Make use of the principles involved in various chromatographic techniques such as Ionexchange, Size exclusion, SCF, Affinity, Inverse & UPLC to carry out separation & analysis of sample.

RPSCHEA302

ADVANCED INSTRUMENTAL TECHNIQUES

CO 1 Make use of the surface analytical techniques(such as SIMS,PIXE) for obtaining information about the surfaces while characterizing the samples.

CO 2 Enlist the advantages of development of hyphenated techniques and will be able to explain the different types of interfaces that are used to achieve this hyphenation.

CO 3 Apply the principle underlying spectroelectrochemistry& the use of optically transparent electrodes to carry out the analysis of samples.

CO 4 Elaborate on the essential principles underlying the applications of thermal methods and radiochemical methods.

CO 5 Develop a working knowledge of various methods used in polarography.

CO 6 Explain anodic , cathodic and adsorptive stripping methods in voltammetry.

CO 7 Select a suitable method of voltammetry for the analysis of a particular sample.

RPSCHEA303

BIOANALYTICAL CHEMISTRY AND FOOD ANALYSIS

CO 1 Describe the composition of body fluids (blood & Urine).

CO 2 Enlist the physiological and nutritional significance of vitamins & biological macromolecules.

CO 3 Apply the various analytical (microbiological techniques) learned for the analysis of these

vitamins and biological macromolecules which in turn will help them in identification

and diagnosis of diseases.

CO 4 Explain the mechanism of operation of immune system.

CO 5 Describe the various food preservation techniques that are widely practiced in food industries

as quality control measure.

CO 6 Design an experiment to confirm the presence and amount of various components present in

different types of food samples for further label claim studies.

RPSCHEAEC-I-304

ENVIRONMENTAL AND CERTAIN INDUSTRIALLY IMPORTANT MATERIALS

CO 1 List the major sources of different types of pollutants.

CO 2 Classify the different types of pollutants.

CO 3 Estimate the pollutants present in air.

CO 4 Outline the role of pollution control boards in monitoring and controlling pollution.

CO 5 Apply the methods learned in sampling of these pollutants to procure a sample for analysis.

CO 6 Indicate appropriate measures to reduce/or minimize the effects of these pollutants on environment.

CO 7 Evaluate the quality of potable water based on the guidelines laid down by the regulatory bodies.

CO 8 Acquire awareness of the principles of green chemistry.

CO 9 Plan out the synthesis of a sample by incorporating benign and environmentally safe solvents.

RPSCHEAEC-II-304

PHARMACEUTICAL AND ORGANIC ANALYSIS

CO 1 Categorize the different types of drugs and dosage forms.

CO 2 Outline the role of FDA in pharmaceutical industry.

CO 3 Make use of the different methods learned to estimate the amount of drug present in a sample.

CO 4 Apply the concept of impurity profiling, stability studies, limit tests, bioavailability and bioequivalence while ensuring the uniformity in standards of quality , efficacy & safety of pharmaceutical products.

CO 5 Elaborate on the role of analytical chemistry in forensic laboratories.

CO 6 Identify and estimate the amount of the toxins found at crime scenes.

CO 7 Evaluate the quality of the cosmetic products by carrying out their analysis using the methods learned.

RPSCHEA401

SEPARATION TECHNIQUES AND INDUSTRIAL MATERIALS

CO 1 Identify and design the suitable membrane separation technique for intended problem.

CO 2 Elaborate on the importance of concept of pH ½ in solvent extraction.

CO 3 Select an appropriate method for the processing, extraction using different techniques and standardization of the herbal materials as per WHO cGMP guidelines.

CO 4 Recommend methods for the biodegradation of insectiscides and pestiscides.

CO 5 Judge the quality of the detergents by making use of the various methods which are used in industries for carrying out their analysis.

CO 6 Enlist properties of an ideal fuel.

CO 7 Determine the calorific value of fuels using the methodologies learned.

CO 8 Separate & estimate the amount of biomolecules using appropriate electrophoretic technique.

RPSCHEA402

ADVANCED INSTRUMENTAL TECHNIQUES

CO 1 Explain the basic theory of 1H NMR spectroscopy & Raman Spectroscopy.

CO 2 Describe the working of the different components of NMR spectrophotometer & Raman spectrometer and will be able to explain how the spectrum is recorded.

CO 3 Apply 1H ,13C, 31Pand 19F NMR spectroscopy techniques in combination with other spectroscopic data to carry out structure determination.

CO 4 Explain the mechanism of formation and fragmentation of ions in gas phase.

CO 5 Interpret the information contained in the mass spectra.

CO 6 Apply the basic working principles involved in the spectroscopic techniques learned for carrying out identification and analysis of samples.

CO 7 Make use of the phenomenon of chemiluminescence for varied applications.

CO 8 Elaborate on the concept of ORD & CD.

CO 9 Discuss the principle , instrumentation involved in Photoacoustic spectroscopy and will be able to use it for the trace analysis of solid , liquid and gaseous samples.

RPSCHEA403

ENVIRONMENTAL AND CERTAIN INDUSTRIALLY IMPORTANT MATERIALS

CO 1 Elaborate on the various physical , chemical and biological processes which are used in CETP to remove the contaminants from wastewater.

CO 2 Apply the concept of recycling, reuse & reclamation in managing solid waste in real life.

CO 3 Classify the different types of plastics.

CO 4 Outline the importance of additives in plastic.

CO 5 Estimate the amount of metallic impurities in plastics.

CO 6 Describe the composition of paints.

CO 7 Make use of the methodologies learned to carry out the analysis of each and every component present in paints.

CO 8 Develop an understanding of zone refining and vacuum fusion and extraction techniques.

CO 9 Classify the kinds of elements that can be purified by the process of zone refining.

CO 10 Suggest a method for analyzing different elements present in ores & alloys.

RPSCHEAOC-I-404

INTELLECTUAL PROPERTY RIGHTS & CHEMINFORMATICS

CO 1 Be well versed with the concept of intellectual property and the terms involved with respect to Indian Patent Law.

CO 2 Distinguish between patents and copyrights.

CO 3 Elaborate on the economical impact and legislature involved in Intellectual property rights.

CO 4 Make use of the software tools pertaining to Cheminformatics and Molecular Modelling.

CO 5 Conduct structure and sub-structure search online, determine SMILES codes for various molecules.

CO 6 Gain knowledge about the application of the research based tools.

RPSCHEAOC-II-404

RESEARCH METHODOLOGY

CO 1 Know basics of research methodology

CO 2 Get the technical know-how of research from developing a problem.

CO 3 Write a research paper, study formats of existing research papers and review papers.

CO 4 Be aware about importance of lab-safety and the safety protocols in R&D laboratories.

Subject

Programme Specific outcomes

Course Code

Paper Title

Course Outcomes

Computer Science

PSO 1 Develop keen interest in the emerging technologies in the industry.

PSO 2 Analyze, innovate, and solve real-life case studies using technology.

PSO 3 Work in teams with various disciplines; working on an interdisciplinary project.

PSO 4 Understand work culture in the industry and attain skills to become a successful entrepreneur.

PSO 5 Develop a skillset analyze, describe, and innovate various methodologies to solve a given

problem

PSO 6 Understand the philosophy of the subject to apply to various fields of research.

PSO 7 Work inan industrial environment under expert supervision and develop expertise in various

technologies

PSO 8 Effective utilization of available resources to overcome challenging tasks.

RPSCS101

Analysis of Algorithm

CO 1 Understanding Algorithmic complexity and analyzing the same

CO 2 Developing an understanding of various techniques and methods to

design algorithms

CO 3 Skill to make the algorithm and solve real-world problems

CO 4 Developing algorithms to solve real-life problems.

CO 5 Analysis of traditional algorithms and apply to various problems.

CO 6 Find applications to algorithms in real-time case studies

RPSCS102

Advanced Data Modelling

CO 1 Interpret different Data modelling Techniques for handling a variety of

data.

CO 2 Evaluate and Apply appropriate NoSQL database for a specific use

case.

CO 3 Analyze spatial data, relationships and metrics.

CO 4 Design and implement applications for semi-structured data.

RPSCS103

Natural Language Processing

CO 1 To learn how to apply basic algorithms & design and implement

applications based on natural language processing

CO 2 Implement a rule-based system to tackle morphology/syntax of a

language

CO 3 To design an innovative application system that uses NLP

components

CO 4 Be able to design, implement and test algorithms for NLP problems

CO5 Be able to apply NLP techniques to design real-world NLP

applications

RPSCS104

Blockchain

CO 1 Explain blockchain technology as a security mechanism

CO 2 Explore blockchain types and implementation

CO 3 Construct and deploy Smart contracts using Ethereum

CO 4 Implement decentralized applications using blockchain in real-time

applications.

CO 5 Describe Private Blockchain using Hyperledger Fabric

RPSCS201

Machine Learning

CO 1 Understanding Artificial Intelligence, neural networks and its

applications in real-life problems

CO 2 Working with evolutionary strategies like genetic algorithms and

another evolutionary programming to solve various case studies

CO 3 To solve the Fuzzy logic problem using various strategies and apply

the same.

CO 4 Understand deep learning problems and apply machine learning

techniques to solve the same.

RPSCS202

Cyber & information Security

CO 1 Explain security mechanisms to secure data

CO 2 Analyze vulnerabilities in Network and cloud platform and find Its

secure solution

CO 3 Identify possible attacks on IOT and its countermeasures

RPSCS203

Wireless and Mobile Networks

CO 1 Understanding Wireless Networking Systems

CO 2 Working with Mobile Technologies and innovations in the same.

CO 3 Using wireless networking for developing applications and projects

CO 4 Detailed understanding of various mobile communication

technologies along with wireless systems

RPSCS204

Advanced Mining Techniques

CO 1 Interpret different Data mining algorithms and Techniques

CO 2 Critically evaluate and apply Mining algorithms to real-world

case studies

CO 3 Compare Mapreduce and traditional Software paradigms

CO 4 Assess the similarity of documents

CO 5 Apply different link analysis techniques for specific use cases.

RPSCS301

Social Network Analysis

● Work on the internal components of the social network

● Model and visualize the social network

● Apply social network in real-time applications

RPSCS302

Internet of Things

● Work on cloud-based Embedded Systems

● Explore various aspects of IOT

● Explore and understand different technologies associated with IOT

RPSCS303

Big Data using Hadoop and R

● Understanding various Big Data Technologies

● Working with R and Hadoop

Develop applications in Hadoop and R for Big Data

RPSCS401

Simulation and Modelling

● Developing and understanding various simulation models

● Understand the application of simulation models to perform projections

Subject

Programme Specific outcomes

Course Code

Paper Title

Course Outcomes

Information Technology

PSO 1 Achieve expertise in various subjects from the broad area of Information

technology.

PSO 2 Design the solution to real world problems and issues using various software

and hardware state of the art tools & softwares.

PSO 3 Analyze and compare the existing solutions and tools available to the

problems and generate new solutions or tools.

PSO 4 Use the techniques, skills and modern computing tools to emerge as a

freelancer and entrepreneur in the field.

PSO 5 Identify the changing computational domains and adapt the new age

technologies and computing domain.

PSO 6 Become a responsible citizen totally aware of environmental issues and

develop solutions saving the environment.

PSO 7 Assimilate professional ethics, managerial and soft skills to emerge as a

leader to manage diverse projects in industry

PSO 8 Apply domain expertise to pursue research in Computer science and

Information Technology discipline.

RPSIT101

Data Science

CO 1 Develop Analytical solution to Real world data science Problem

CO 2 Apply statistical and mathematical techniques to explore data

CO 3 Compare and Implement various supervised and unsupervised Learning

algorithms for specific use case.

CO 4 Evaluate results of Analytics and suggest Solutions

CO 5 Articulate techniques for handling Time series and Semi-structured data

RPSIT102

Microservices Architecture

CO 1 Understanding and implementing microservices

CO 2 Reconstitute a monolithic system into microservices

CO 3 Developing microservices on FOSS platforms

CO 4 Securing Microservices and deploying them.

RPSIT103

Full Stack Web Development - I

CO 1 Identify and define the need of Angular.js in Web Development.

CO 2 Implement MVC pattern of efficient and quick application development.

CO 3 Develop secure cloud based applications.

CO 4 Work with Modern Database technology like MongoDB.

CO 5 Design responsive and interactive web sites.

CO 6 Job ready and accept the MEAN Stack Developer profile.

RPSIT104

Advanced IoT

CO 1 Identify and Define Industrial Internet of Things.

CO 2 Design the prototype and give solutions for the real world problems.

CO 3 Develop smart applications with the help of smart devices.

CO 4 Demonstrate the implementation of IoT based applications in Cloud.

CO 5 Propose and apply automation in industry.

RPSIT201

Blockchain Technology

CO 1 To understand Blockchain technology and its application

CO 2 To Gain knowledge about bitcoin technology

CO 3 To develop Etherium application using solidity

CO 4 To know working of private blockchain using Hyperledger Fabric

CO5 To study different blockchain use cases

RPSIT202

Big Data Analytics

CO 1 Judge the applicability for Big data solution to Use case

CO 2 Interpret Big data Ecosystem and lifecycle

CO 3 Create customized solution using big data technologies to solve real world

problems

CO 4 Implement techniques and concepts to handle unstructured data

CO 5 Develop Programs with Map Reduce PAradigm.

RPSIT203

Machine Learning

CO 1 Develop an appreciation for what is involved in learning from data.

CO 2 Understand a wide variety of learning algorithms.

CO 3 Understand how to apply a variety of learning algorithms to data.

CO 4 Understand how to perform evaluation of learning algorithms and model

selection.

RPSIT204

Full Stack Web Development - II

CO 1 Identify and define the need of Node.js in Web Development.

CO 2 Implement MVC pattern of efficient and quick application development.

CO 3 Develop secure cloud based applications.

CO 4 Work with Modern Database technology like MongoDB.

CO 5 Design responsive and interactive web sites.

CO 6 Job ready and accept the MERN Stack Developer profile.

RPSIT301

Cloud Computing

CO 1 Understand the Cloud Computing, Parallel Computing & Virtualization

concepts

CO 2 Discuss the Cloud Architecture and its Implementation

CO 3 Demonstrate Cloud Programming and various Software Platforms and

Environment

CO 4 Understand Mobile Computing and its importance

CO 5 Learn and Understand various Security & Privacy concepts in Cloud

RPSIT302

Digital Forensics

CO 1

Understand Digital Forensics Process

CO 2 Study different types of evidences and procedure to maintain integrity

CO 3 Apply evidence acquisition techniques

CO 4 Gain Knowledge about different domains of Digital forensics

CO 5

Explore digital forensics software

RPSIT303

UX/UI Designing

CO 1 Understand what UX/UI Designing is and the importance of user-centered

design.

CO 2 Understand how the sensory, cognitive and physical capabilities or users help

in the designing of interactive products.

CO 3 Understand the process of UX/UI design that include prototyping, evaluation

and implementation.

RPSIT401

Penetration Testing

CO 1

Identify the core concepts related to computer software and hardware.

CO 2

Apply various ways to find the vulnerabilities and solutions to them.

CO 3

Analyze the legal issues and IT Laws laid down in the Cyber Security.

CO 4

Exploit and find the vulnerabilities using various tools.

CO 5

Develop an excellent understanding of current cyber security issues

and ways that user, administrator, and programmer errors can lead to

exploitable insecurities

Subject

Programme Specific outcomes

Course Code

Paper Title

Course Outcomes

Life Science

Gain a multidisciplinary understanding of science and its related fields.

RPSLSc101

Environmental Biology, Biodiversity and Evolution

CO 1 Understand ecological concepts, environmental issues, the value of biodiversity, the importance of conservation, biological theories and concepts in evolution which forms the basis of phenomena like antibiotic resistance as well as cancer progression.

CO 2 Apply ecological concepts to their day-to-day life in order to benefit the environment and use various essential software that will help them in their respective careers.

CO 3 Identify the major events and dates that provide the structure for geologic time on Earth.

CO 4 Analyse the age of fossils with the help of radio dating techniques.

CO 5 Assess the possibilities of biological lifeforms evolving in outer space.

CO 6 Design a fully functional website of their choice

Life Science

Improve their overall personality with skills like independent thinking and innovation as well as soft skills.

RPSLSc102

Cell and Molecular Biology

CO 1 Understand basic in-depth fundamentals of cellular structure, components and their functions. Explain the importance of cell cycle in growth and development of an organism as well as the principles of the inheritance pattern of genes.

CO 2 Recall the detailed events of one of the highly coordinated processes of the cell cycle, its role, regulation and checkpoints.

CO 3 Employ gene mapping methods to find the distance between genes.

CO 4 Compare the mechanisms involved in DNA replication, recombination and repair in prokaryotes and eukaryotes.

CO 5 Appraise the concepts of the central dogma of life from DNA to RNA to proteins which serve the whole purpose of molecular biology.

CO 6 Employ creative media in assignments to express the concepts learnt.

Life Science

Develop good laboratory etiquettes and a strong research ethic.

RPSLSc103

Biochemical Studies

CO 1 Investigate the unique properties of amino acids which influences the amazing diversity of proteins.

CO 2 Relate the basic concepts in protein biochemistry to advanced subjects like protein engineering, vaccine formulation and drug designing.

CO 3 Understand the structure and properties of lipids and study the pathways and mechanisms involved in ATP synthesis in plants and animals.

CO 4 Recall the classification, structural properties of carbohydrates along with the concept of stereochemistry and biological roles.

CO 5 Evaluate the structure, and role of vitamins and minerals and explain their importance with respect to nutritional deficiencies.

CO 6 Construct the graphs depicting enzyme kinetics.

Life Science

Present themselves and their research work with confidence.

RPSLSc104

Research Basics and IPR

CO 1 Review the scientific research process and the ethics involved.

CO 2 Distinguish between the different types of research methods.

CO 3 Formulate and communicate scientific ideas in the form of research papers, grant proposals, posters and presentations.

CO 4 Draft formal letters, statement of purpose, cover letters, emails, replies to reviewers.

CO 5 Apply a suitable statistical test depending on the type of data, variables and samples.

CO 6 Understand the principles and working of various basic and advanced instruments essential for research as well as the patenting process and other intellectual property rights.

Life Science

Develop problem solving and troubleshooting abilities as well as the ability to work as a team when performing laboratory experiments.

RPSLSc201

Microbiology, Immunology and Plant Physiology

CO 1 Classify microorganisms and understand their growth curve patterns.

CO 2 Understand the various immunological processes that are involved in the body’s defence system and the mechanisms used by the immune system to fight against viral, bacterial, parasitic infections.

CO 3 Appreciate how plants see the world through photoreceptors and their responses to abiotic and biotic stresses.

CO 4 Gain an insight on plant development and plant cell death.

CO 5 Choose an appropriate plant model system depending on a research objective.

CO 6 Appraise the different biochemical and signalling pathways for plant hormones.

Life Science

Appear for various competitive exams like CSIR-NET, SET, GATE, ICMR, etc in the subject of Life Sciences as well as Biotechnology.

RPSLSc202

Model Organisms and Life Processes

CO 1 Compare the anatomy of various life processes like digestion, respiration, circulation and excretion across organisms.

CO 2 Examine the disorders arising from defects in physiological processes in humans.

CO 3 Correlate various developmental processes in an organism by understanding the important fundamental concepts of development like commitment, specifications, determination and differentiations with examples.

CO 4 Gain in-depth knowledge on the concepts of gametogenesis, fertilization and formation of germ layers during early development processes.

CO 5 Understand the basics of neuroanatomy and neurocellular mechanisms like electrical & chemical signaling and neurotransmission as well as the advanced functions of the nervous system such as the sensory systems, motor and movement control, behavior, emotions, learning, memory and pain

CO 6 Culture and maintain certain animal model organisms.

Life Science

Find employment in a variety of fields ranging from biotechnology to nanotechnology or become self-sustaining bio-entrepreneur.

RPSLSc203

Genetic Manipulation and Cell Signalling

CO 1 Compare the mechanisms of gene expression as well as the components involved in gene regulation between prokaryotes and eukaryotes.

CO 2 Understand the post transcriptional and post translational modifications along with the role of various factors involved in both the processes.

CO 3 Appraise the various tools used for genetic engineering like restriction enzymes and vectors

CO 4 Apply the concepts of Transformation, Transfection and Transduction methods used for introducing recombinant genes into various host organisms.

CO 5 Classify the various types of cellular signalling, receptors and signalling pathways as well as apoptosis pathways.

CO 6 Formulate cancer treatment strategies based on the knowledge of cancer physiology.

Life Science

Showcase their creativity and express their ideas in a nurturing environment.

RPSLSc204

Genetic Engineering

CO 1 Understand the detailed mechanisms of various recombinant techniques & latest gene editing tools such as CRISPR/Cas.

CO 2 Acquire knowledge to use novel reporter systems, metabolic engineering aspects, in-silico modelling and Omics analysis.

CO 3 Recognise the importance of cloning any desired gene using suitable host and appropriate expression system.

CO 4 Compare and analyse various gene expression systems for variety of hosts including both prokaryotes and eukaryotes.

CO 5 Optimize various components and essential parameters involved in developing a gene expression system.

CO 6 Design an expression system for a suitable host organism to obtain recombinant protein product.

Life Science

RPSLSc301

Tissue Culture and Aquaculture

CO 1 Appraise the technological aspects of plant tissue culture, animal tissue culture and aquaculture.

CO 2 Develop skills to prepare specialised media, sterilize and inoculate and maintain cultures in the laboratory.

CO 3 Apply the knowledge of stress physiology in the development of resilient transgenic plants to be used in agriculture.

CO 4 Understand the key concepts of animal tissue culture such as culturing principles, techniques, applications.

CO 5 Distinguish between the various types of contamination that occurs during tissue culture and review the ways to control them.

CO 6 Design an ideal plant or animal tissue laboratory based on their respective requirements.

Life Science

RPSLSc302

Fermentation Technology and its Applications

CO 1 Understand the fundamental concepts of fermentation techniques, methods used for product recovery, the associated product economics and explain the importance of effluent treatment.

CO 2 Differentiate between various types of fermenters and design the components and optimize various essential parameters required in a fermenter.

CO 3 Derive microbial growth kinetics for fermentation processes and optimize the culture conditions to scale up the production.

CO 4 Identify and analyse techniques of isolation, preservation of microbial cultures and various fermentation media used for optimum production.

CO 5 Classify plant secondary metabolites and understand the industrial production of some important metabolites.

CO 6 Enlist the scope of enzymes in various commercial industrial productions of food, nutraceuticals, and other essentials.

Life Science

RPSLSc303

Bioinformatics, International Standards & Bioethics

CO 1 Classify the biological databases that are used in bioinformatics and select and use the appropriate biological database according to the query.

CO 2 Construct phylogenetic trees manually as well as computationally after understanding the concepts, terminologies, types and properties of phylogenetic trees and the various methods of building it.

CO 3 Understand the concept of multiple or pairwise sequence alignment and select the appropriate software to carry out the alignment.

CO 4 Audit biotechnology/pharmaceutical industries as per ISO standards as well as the GMP and GLP guidelines by knowing the requirements and procedure of these certifications which may provide a basis for a future career in quality assurance or quality management.

CO 5 Write a successful business plan and investment proposal, understand how to set up their own businesses and take inspiration from successful Indian bio-entrepreneurs.

CO 6 Debate on various topics involving bioethics and understand the relevance of bioethics in regulating exciting developments in biology and medicine.

Life Science

RPSLSc304

Project Work

CO 1 Follow and develop the strict norms of Good Laboratory Practices in their respective laboratories.

CO 2 Design and perform experiments, document results, perform statistical analyses and write their observations and conclusions independently.

CO 3 Organise their time and resources, and be resourceful in the absence of certain instruments or reagents.

CO 4 Learn to troubleshoot failed experiments and gain the ability to interpret both positive and negative results.

CO 5 Work independently as well as in pairs or groups by adopting the culture of inclusivity.

CO 6 Present their work in the form of oral or poster presentations at the national or international conferences or publish their work in research journals approved by the new UGC CARE list if deemed suitable by their research guides.

Life Science

RPSLSc401

Medical Biotechnology

CO 1 Understand the principles, classification, production and examples of gene therapy, antisense therapy and protein therapeutics.

CO 2 Distinguish between gene therapy, antisense therapy and protein therapeutics and select the appropriate therapy for the treatment of a certain disease.

CO 3 Recall the important new concepts in engineering of vaccines and peptibodies and their applications for various diseases.

CO 4 Evaluate disease models used for developing new therapeutics, and computational models for rational drug design.

CO 5 Assess the pharmacogenomics of various illnesses like cancer syndromes, neuropsychotic and cardiovascular disorders.

CO 6 Investigate the steps involved in drug designing right from identification of the API in activity guided drug development to its metabolism and action.

Life Science

RPSLSc402

Applied Biotechnology

CO 1 Describe the issues behind infertility, the physiology of reproduction, principles and techniques of ART, cryobiology and latest developments in the field.

CO 2 Classify nanostructures based on their structure and properties and appraise the novel applications of this technology.

CO 3 Synthesize silver, zinc oxide and ferromagnetic nanoparticles in the laboratory and determine their biological activity.

CO 4 Design a microfludics systems by analysing various parameters and its applications.

CO 5 Identify the ways to create an accurate, quick but cost-effective diagnostic kit for a certain disorder or infection.

CO 6 Employ the basics of forensic science to perform simple experiments like hair microscopy and put their investigative and deducing skills to the test.

Life Science

RPSLSc403

Environmental Biotechnology

CO 1 Investigate the challenges of pests to agriculture and the biological alternatives to harmful chemical pesticides.

CO 2 Evaluate the importance of Integrated Pest Management in order to sustain the least amount of crop damage while maintaining pest populations.

CO 3 Compare the use of chemical fertilizers with biological alternatives and the use of genetic engineering to improve nitrogen fixation.

CO 4 Understand soil enriching techniques like composting, the ecological role of mycorrhiza, the emerging technique of aquaponics as well as the lucrative technique of phytomining of precious metals like gold.

CO 5 Examine the issue of Solid Waste Management, associated laws and regulations, current status of the steps taken by the government like the ‘Swachh Bharat Abhiyaan’

CO 6 Describe the concept of remediation suding plants or microbes, explain various adaptive mechanisms for pollutant tolerance and applications for environmental protection.

Life Science

RPSLSc404

Protein studies, Advanced Bioinformatics and Biomathematics

CO 1 Acquire in-depth knowledge of the types, mechanisms, quality control systems of protein trafficking and targeting machinery to various cellular compartments.

CO 2 Understand the concept of protein folding pathways for achieving their native conformation with the associated thermodynamics aspects and the chaperon families that help in the process.

CO 3 Recognize the ability of all the biomolecules to interact with each other in order to carry out all the metabolic processes.

CO 4 Understand the concepts and advanced software used in the field of proteomics and genomics to give an overall perspective of complete protein studies under one roof.

CO 5 Visualize drug docking sites of target proteins in the process of drug discovery.

CO 6 Solve basic calculus problems as well as examples in biological scenarios through the use of mathematics which is required to understand ecological modelling, growth curves, population genetics, epidemic modelling, enzyme kinetics, analysing drug efficacies as well as cancer treatment modelling to name a few.

Subject

Programme Specific outcomes

Course Code

Paper Title

Course Outcomes

Microbiology

Recall the basic concepts of gene expression and regulation, exemplify

cytoplasmic inheritance and transposons. Analyse the genetics

underlying cancer and cell cycle. Solve problems based on allelic and

genotypic frequencies.

RPSMIC101

MICROBIAL GENETICS

CO 1

Recall the basic genetic mechanisms like transcription and translation mechanisms, post translational modifications, levels of gene expression

CO 2

Compare and contrast between prokaryotic and eukaryotic transcription and demonstrate an in depth understanding of gene regulation

CO 3

Implement the knowledge about oncogenes and cancer genetics in research

CO 4

Structure the medical and evolutionary relation of transposition

CO 5

Critique the best model organism for genetic studies

CO 6

Outline the factors leading to changes in genetic structure in a population

CO 7

To apply Hardy-Weinberg’s Law and evaluate problems based on genotypic and allelic frequencies

CO 8

Outlining the significance of cytoplasmic inheritance, giving emphasis to the evolutionary relationship of inheritance

Apply the principles of thermodynamics to understand stability of

biological molecules, execute experiments for their detection and

estimation in samples. Summarize the metabolism of one and two

carbon compounds by microorganisms

RPSMIC102

MICROBIAL BIOCHEMISTRY

CO 1

Recall the basics of biochemical calculations like SI units and expression of concentration

CO 2

Illustrate various biochemical processes with the help of thermodynamic principles

CO 3

Remember the basics of amino acids and peptides and understand further details about secondary structure of polypeptide chain.

CO 4

Differentiate between various polysaccharides like glycoproteins and proteoglyans

CO 5

Organize various events in evolution of metabolic pathway

CO 6

Explain the method of transport of four major biomolecules into the cell

CO 7

Execute various chemical methods to characterize the biomolecules

Attribute pathogenesis of diseases to virulence mechanisms, outline the

pathogenesis, transmission and treatment of emerging bacterial and

viral infections. Recognize the role of microbiome in the overall

physiology of humans. Execute antibiotic susceptibility assays and

evaluate efficacy in context of antibiotic resistance. Also, implement

diagnostic tests for infectious diseases

RPSMIC103

MEDICAL AND CLINICAL MICROBIOLOGY

CO 1

Elaborate on pathogenesis, mode of transmission, epidemiology and therefore modes of prophylaxis of some current and emerging diseases

CO 2

Understand nature of regulation of expression of pathogenicity, evasion of host defense

CO 3

Recognise and appreciate the importance of biofilms in different environments

CO 4

Identify and classify the nature and methods of eradication of biofilms, especially those on implants and medical devices

CO 5

Apply appropriate methodologies to tackle the threat of

antibiotic resistance

CO 6

Perform and analyze all kinds of clinical microbiological tests

associated with antibiotic susceptibility testing

CO 7 Analysing and hypothesizing the effects of gut microbiome on different aspects of human physiology

Formulate a hypothesis, design a research project, execute the

experiments including appropriate calibrations and controls, implement

appropriate methods for data collection and analyse data with

appropriate statistical tools. Abstract and paraphrase scientific

information, extrapolate it and present it creatively in the appropriate

scientific language for verbal and non-verbal communication, using ICT

tools.

RPSMIC104

RESEARCH METHODOLOGY

CO 1

Summarize the basics of research methodology

CO 2

Execute the experiments including appropriate calibrations and controls, with a carefully written record of the outcomes

CO 3

Implement different methods of data collection and process the collected data by conventional and modern methods.

CO 4

Hypothesize a solution to a research problem

CO 5

Design a research project

CO 6

Distinguish between laws, theory, postulates, and research types

CO 7

Carrying out statistical analysis of the result

CO 8

Selecting correct mode of scientific communication and quality literature

Recall the structure and functions of cell membrane and cytoskeleton

as well as the concept of protein trafficking and transport. Compare

various transport mechanisms, and analyse the significance of cell to

cell communication. Explain the process of development and

organogenesis in higher animals and correlate it to genes with specific

reference to Drosophila.

RPSMIC201

CELL BIOLOGY

CO 1

Interpret the structure and analyze the function of cell membrane & Cytoskeleton.

CO 2

Discuss the concept of compartmentalization of cell and understand the process of membrane transport and protein trafficking.

CO 3

Interpret the phases of Cell cycle & discuss the apoptotic mechanisms.

CO 4

Exemplify cell communication strategies in plants & animals.

CO 5

Recall the basics of developmental biology and deconstruct the process of meiosis, embryonic cleavage, gastrulation & morphogenesis

CO 6

Justify the genetic basis of development in model organisms

CO 7

Analyze the entire genetically predisposed process of development in Drosophila.

CO 8

Execute & implement the techniques used to study cell structure & its components.

Execute extraction, purification and analysis of various biomolecules.

Compare the mechanisms of enzyme catalysis of different classes of

enzymes and solve problems on enzyme kinetics. Recall different cell

signalling mechanisms. Outline the biochemistry of degradation of

various xenobiotics by microorganisms

RPSMIC202

MICROBIAL BIOCHEMISTRY

II

CO 1

Recall the basics of biochemical techniques for extraction and purification of biomolecules

CO 2

Compare modes of regulation of enzyme activity at protein level

CO 3

Understand the details of mechanism of enzyme activity for the representative enzyme from each class

CO 4

Attribute various mechanisms to the response to various environmental stimuli

CO 5

Analyze the mechanism of biodegradation of various xenobiotics by microorganisms

CO 6

Check various properties of amylase enzyme in the laboratory

Recall methods used to study microbial ecology and execute analysis

of samples from varied environments. Extrapolate potential of

extremophilic proteins to industrial applications, attribute problems like

biofouling and biocorrosion to microbial activity. Recall the role of

microbes in soil and demonstrate their role in plant growth. Outline,

appreciate and apply the principles of solid and hazardous waste

management and appreciate various regulations enacted with respect

to biosafety.

RPSMIC203

ENVIRONMENTAL

MICROBIOLOGY

CO 1

Recollect basic concepts of microbial ecology

CO 2

Design, execute and implement a protocol for sample collection from a natural environment and its microbiological analysis

CO 3

Discriminate and select the best genomic technique for microbial studies of different environmental samples

CO 4

Demonstrate an in depth understanding of microbial ecology of soil and marine environments

CO 5

Apply the understanding on industrial applications of extremophiles to explore and innovate for newer products

CO 6

Summarize the significance of microbes in elemental cycles

CO 7

Interpret the role of rhizosphere bacteria in plant growth and implement techniques for exploring them for commercial applications

CO 8

Explain and appreciate various regulations enacted with respect to biosafety and hazardous waste management

Access appropriate biological databases and apply various

bioinformatics tools for varied analysis, recall concepts of synthetic

biology and systems biology. Extrapolate understanding of

contemporary tools in Molecular Biotechnology for DNA sequencing,

mutagenesis and protein expression studies. Execute experiments for

preparation of nanoparticles and their analysis

RPSMIC204

EMERGING AREAS IN BIOLOGY II

CO 1

Understand basics of bioinformatics and execute the analysis of molecular data using different databases & software.

CO 2

Design primer for PCR reaction & carryout phylogenetic analysis.

CO 3

Discuss the concept of synthetic biology & systems biology

CO 4

Illustrate & implement the methods for biosynthesis of nanoparticles & discuss its applications.

CO 5

Summarize and compare the principles of different Nucleic acid Sequencing methods.

CO 6

Compare and analyze the process of protein expression in prokaryotic & eukaryotic systems.

CO 7

Interpret the significance of concepts like directed mutagenesis, mapping & quantifying transcription & measuring protein accumulation.

Understand and evaluate the significance of viral genetics in

representative bacterial viruses and apply it in rDNA technology. Recall

and extrapolate the types of animal and plant viruses, describe their

mechanisms of infections, control and treatment. Explain and give an

overview of emerging & re-emerging viral infections responsible for

causing pandemics. Outline the mechanism of tumorigenesis by

oncogenic viruses.

RPSMIC301

VIROLOGY

CO 1

Understand and compare the types of bacterial viruses, their structure, mode of replication and their characteristic features

CO 2

Summarize and infer the significance of viral genetics to map the genes and decode the ways to construct and use phage vectors in rDNA technology

CO 3

Recall the types of plant viruses, their general mechanisms of infections, steps in inducing the infection, diagnosis & control of plant viral infections

CO 4

Demonstrate an in depth understanding of the types and structure of animal viruses, their pathogenesis and attribute it to the mode of transmission, diagnosis, control & therapy of different animal viral infections

CO 5

Differentiate between the mechanisms of pathogenesis of plant and animal viruses

CO 6

Illustrate and exemplify the types and mechanisms of oncolytic viruses and their tumorigenic characteristics.

CO 7

Integrate knowledge on the novel emerging & re-emerging viral infections to attribute to pandemics

CO 8

Apply molecular biology techniques& bioinformatics tools to diagnose & control viral infections

Recall detailed mechanisms of innate and adaptive immunity, and

emphasize the molecular interactions that help distinction of self from

non self in immune mechanisms. Outline the mechanisms of immune

tolerance and exemplify reasons for autoimmune diseases as well as

cancer. Apply principles of immunoassays for execution of diagnosis of

disorders and diseases. Summarize and illustrate concepts in

immunotherapy. Extrapolate basics of vaccine development to combat emerging infections

RPSMIC302

IMMUNOLOGY

CO 1

Explain the defense mechanisms in the human body against various infectious agents

CO 2

Recall the key players of innate and adaptive immune response

CO 3

Compare the T cell dependent and T cell independent immune responses

CO 4

Integrate the understanding of immune tolerance to distinguish between autoimmune and Immunity Mediated Inflammatory Disease

CO 5

Distinguish between immune tolerance and immune therapy and extend its application to treatment of Cancer

CO 6

Apply the understanding of immunological techniques for analysis of immune responses

CO 7

Critically evaluate the newer methods of vaccine developments

CO 8

Demonstrate the presence of immune cells in human peripheral blood

Understand and illustrate different concepts in food microbiology like-

fermentations, preservation, microbial analysis and quality control.

Check food and water samples for microbiological quality as per

prescribed standards and maintain records. Recall concepts and

monitor processes in food industry and bottled water manufacturing

units with emphasis on BIS regulations, regulatory frameworks, GMP

and HACCP.

RPSMIC303

FOOD AND WATER

MICROBIOLOGY

CO 1

Outline the process of production of different fermented foods

CO 2

Construct a cause and effect model system for effective preservation of foods

CO 3

Understand microbiology of modern foods like probiotics, nutraceuticals and dehydrated foods

CO 4

Execute collection, processing and microbiological analysis of food and water samples

CO 5

Evaluate foods and water on the basis of their microbiological quality as per BIS/ISO/APHA standards

CO 6

Implement monitoring protocols for the quality of food and water using principles of HACCP

CO 7

Apply basic knowledge of fermented foods, food preservation, microbial analysis and standards to evaluate current techniques and improvise technology in food manufacturing or bottled water manufacturing units

Recall and explain the principle and working of techniques like

spectroscopy, chromatography, hyphenated techniques, PCR based

assays, microarrays, electrophoresis, X ray diffraction and SPR and

compare all the different types included under each technique.

Understand and extrapolate these concepts to analyse biological

samples for biomolecular composition and/or structure.

RPSMIC304

TOOLS AND TECHNIQUES:

BIOMOLECULAR ANALYSIS

CO 1

Understand the principles of various spectroscopic methods

CO 2

Attribute various applications in biological sciences to the appropriate chromatographic technique

CO 3

Summarize principle and applications of variants of PCR technique

CO 4

Recall the basics of electrophoresis technique and apply it to study recent advances of the technique

CO 5

Explain the use of microscopic and diffraction techniques to study nanostructures

CO 6

Summarize methods other than microscopy and diffraction to study nanomaterials

CO 7

Implement the knowledge of various techniques to carryout research project

Understand, explain and monitor processes in pharmaceutical industry

with respect to regulatory aspects, QA, QC, GLP, ISO standards and

validation. Check microbial quality of bulk and finished pharmaceutical

products, judge their quality and maintain records. Apply concepts in

bioinformatics, proteomics, high throughput screening and

pharmacogenomics for discovering new drugs

RPSMIC401

PHARMACEUTICAL AND

COSMETIC MICROBIOLOGY

CO 1

Recall the principles and terminologies used in pharmaceutical industry

CO 2

Design experiments on bioburden determination

CO 3

Execute microbial and sterility testing of pharmaceutical products

CO 4

Monitor the factors which affect the quality of a pharmaceutical product

CO 5

Outline the process of validation and audit validation

CO 6

Apply various softwares used for studying 3D structures of drug and target molecule for drug discovery

CO 7

Critique suitable candidates as potential drugs based on theoretical knowledge

CO 8

Design effective antimicrobial preservation methods for cosmetic products

Recall and apply various concepts in modern Biotechnology like gene

therapy, stem cell technology, 16SrRNA sequencing in fields like

diagnostics, therapeutics and genetic counselling. Summarize and

evaluate the biotechnological potential of fungi and algae for

production of commercial products like pharmaceutics, pigments,

enzymes, biofuels etc. and in processes like bioremediation and

wastewater treatment. Summarize and interpret the laws for IPR,

biodiversity conservation and recall the perspectives of bioethics.

Implement patent searches and outline prerequisites and steps in

patentability.

RPSMIC402

ADVANCES IN

BIOTECHNOLOGY

CO 1

Summarize the prenatal diagnostic techniques used for diagnosing genetic disorders.

CO 2

Justify the significance of gene therapy & understand antisense technology used for treatment of genetic disorders.

CO 3

Explain the importance of stem cell technology in regenerative medicine.

CO 4

Analyze and compare the advanced techniques & its utility for detection of pathogens.

CO 5

Evaluate the commercialization potential of fungal strains & understand the current trends in fungal biotechnology.

CO 6

Interpret the potential of microalgae in producing biofuels & biofertilizers.

CO 7

Explain IPR, traditional bill law, biodiversity law & ethics in biological research.

CO 8

Design & execute experiments to harness the commercial potential of fungal & algal strains, also to write, read and understand the patent claims.

Recall aspects in epidemiological study designs and public health

surveillance and detect agents that could be associated with bioterrorism. Categorize biofuels and outline fermentation technologies

for their manufacture. Exemplify enzymes with industrial potential and

recall and explore technologies like immobilization for their application

in industrial products. Explain techniques in protein engineering for

increasing activity and specificity.

RPSMIC403

EMERGING AREAS IN BIOLOGY

II

CO 1

Demonstrate a basic understanding of epidemiological strategies, study designs and evaluate the data for its statistical relevance.

CO 2

Discuss and understand the strategies to detect & monitor biological agents used for bioterrorism & exemplify the significance of biosecurity.

CO 3

Identify & implement potential solutions for energy needs by evaluating existing & novel biomass to energy technologies

CO 4

Explain and recall the alternative sources for exhaustible fuels in the form of variety of biofuels.

CO 5

Critique the current and emerging trends of enzyme technology & discuss the applications of enzymes.

CO 6

Understand & execute methods for production, purification, characterization & immobilization of enzymes.

CO 7

Discuss & recall the principles & procedure of protein engineering techniques.

Outline work plans and execute tasks independently and to

completion. Coordinate and cooperate with team members for

execution of experiments. Maintain records, make reports and interpret

them for making summaries. Communicate information accurately and

effectively. Follow ethical practices at workplace, take initiative, exhibit

competency and imbibe other professional skills.

RPSMIC404

INTERNSHIP

CO 1

Understand how theoretical concepts transpire into application in workplaces like research institutes or industry

CO 2

Comprehend a scientific problem and execute prescribed protocols independently

CO 3

Demonstrate ability to complete tasks on time and record results without fabrication, falsification in prescribed formats

CO 4

Confidently communicate relevant information effectively to supervisors in clear and concise manner, in writing and orally.

CO 5

Capability to work with diverse teams with respect, empathy and understanding

CO 6

Demonstrate competency, integrity and commitment at the workplace

Subject

Programme Specific outcomes

Course Code

Paper Title

Course Outcomes

After completion of the course, the student will be able to ---

Physics-MSc

Description

RPSPHY101

Mathematical Methods

1. Learn the concepts of complex variables and analytic functions, and evaluate some improper integrals involving sine and cosine terms.

2. Learn the basic properties of matrices, different types of matrices and its application to physical problems and also have the ability to find Eigen values and Eigen vectors of Matrices.

3. Learn some basic properties of tensors, their symmetric and antisymmetric nature, the Cartesian tensors, covariant, contra- variant and mixed tensors.

4. Learn some basic Levi-Civita symbols which is used in various other courses.

5. Learn the general treatment of second order differential equations with non-constant coefficients, and Power series solutions.

6. Learn the four basic polynomials – Legendre, Bessel, Hermite and Lagaurre polynomials.

7. Understand Integral transforms, Fourier transforms and its applications, Laplace transforms and its applications.

A student completing Master’s Degree in Physics ( Electronics I) program in the subject of Physics will be able to:

RPSPHY102

Classical Mechanics

1.Understand formalism of Lagrange equation and D’ Alembert’s Principle, Hamilton’s principle, variation principle. Its application to mechanics of particles.

2. Comprehend Conservation theorems, Two‐Body Central Force Problem, Scattering in a central force field.

3. Application of the differential equation to the problem of the orbit, The Kepler’s problem: Inverse square law of force.

4. Evaluate Legendre transformations and the Hamilton equations of motion

5. Analysis of Small Oscillations using Eigen function and Eigen value

6. Analysis of Equations of motion using concepts of Canonical Transformations and Poisson brackets.

7. Demonstrate problem solving skills in all above areas

To demonstrate procedural knowledge related to different areas of study in Physics including Quantum Mechanics, Nuclear Physics, Electronics, Microprocessor and Microcontroller, Embedded Systems and RTOS.

RPSPHY103

Quantum Mechanics-I

1.Understand the theory of quantum measurements, wave packets and uncertainty principle.

2. Understand the concepts of quantum mechanics like wave -function, momentum and energy operators, the Schrodinger equation, time dependent and time independent cases, probability density and the normalization techniques, Commutator algebra, their connection to uncertainty principle, solution to the eigen value problems, etc.

3. Develop skills on problem solving for One dimensional rigid box, three-dimensional rigid box and Harmonic oscillator.

4. Understand the formalism of modern quantum mechanics, Dirac notation, Hilbert space and matrix mechanisms.

5. Learn the Schrodinger equation solutions for Hydrogen atom, determine its eigen value and radial eigen functions, degeneracy, etc.

6. Understand the angular momentum operators, its Commutator relations, ladder operators, their eigen functions and eigen values, learn spin eigen functions, Pauli Spin matrices, and understand the addition of angular momentum.

7. Understand the Clebsch.-Gordon coefficients

To demonstrate comprehensive, quantitative and conceptual understanding of the core areas of Physics and keeping update with current developments in the academic field of Physics.

RPSPHY104

Solid State Physics

1.Get a brief idea about crystalline and amorphous substances, about lattice, unit cell, miller indices, reciprocal lattice, and concept of Brillouin zones and diffraction of x-rays by different crystalline materials.

2. Gain knowledge of lattice vibrations the basics of the optical and acoustic phonons in crystals.

3. Understand about different types of magnetism like diamagnetism and paramagnetism. Quantum mechanical formulation of magnetism and application of Langevin diamagnetic equation.

4. Learn about magnetic ordering: Ferromagnetic and Antiferromagnetic orders and Ferromagnetic domains.

5. Carry out the experiments based on the theory that they have learned to measure carrier lifetime, magnetic susceptibility, and dielectric constant. They will also employ to four probe methods to determine electrical conductivity and the Hall setup to determine the hall coefficient of semiconductor.

6. Demonstrate cautious problem solving skills in all above areas.

To demonstrate the ability to use analytical skills in Physics and its related areas of technology to solve a wide range of problems including open ended problems associated with Physics.

RPSPHY201

Advanced Electronics

1. Understand the basics of Microprocessors & microcontroller with their programming

2. Understand the basic concepts of Analog & Data acquisition system.

3. Understand the basic concepts of Analog and Digital transmissions and different types of modulations like Pulse Width Modulation, Time division multiplexing Pulse code modulation.

4. Gain exposure to topic of optical fiber.

5. Understand the basic concepts of Instrumentation Circuits and Designs involving Microprocessor/Microcontroller based DC motor speed controller, temperature controller, Electronic weighing single pan balance using strain gauge/ load cell.

6. Demonstrate quantitative problem solving skill in all the topics covered.

7. Carry out the experiments based on Pulse width modulation for speed Control of dc toy motor, Study of sample and hold circuit, Study of 8085 microprocessor Kit and execution of simple Programmes, Linear Voltage Differential Transducer.

Utilize contemporary experimental apparatus and analysis tools to acquire, analyze and interpret scientific data in the extents of Physics with reference to Research..

RPSPHY202

Electrodynamics

1. Understand formalism of Maxwell's equations, Pointing vector. Its application to Lorentz Transformations.

2. Comprehend concept of Four Vectors and Four Tensors.

3. Developing formalism of electromagnetic waves propagation and its application in wave guide and resonant cavity –related to fiber optics and laser

4. Evaluate moving charges in vacuum and application of Leinard‐Wiechert fields to fields‐radiation from a charged particle, Antennas

5. Analysis of moving charges with application to dipole radiation-electric and magnetic

6. Application of relativity concepts to electrodynamics

7. Demonstrate problem solving skills in all above areas

Plan and execute Physics-related experiments or investigations, analyze and interpret data collected using appropriate methods, and report accurately the findings relating to relevant theories of Physics.

RPSPHY203

Quantum Mechanics-II

1.Understand the Perturbation theory and the first and second order energy corrections, first order correction to wave function.

2. Learn the degenerate perturbation theory, Fermi’s Golden rule and their applications.

3. Learn other approximation methods like Variational Principle and WKB approximations, quantization conditions and their applications.

4. Learn the Scattering theory – semi-classical theory, differential scattering cross section, scattering amplitude, partial wave analysis, etc.

5. Understand the spherical attractive and repulsive potential wells, Born Approximation for One wall, Two walls and no walls.

6. Understand the Identical Particles, the difference between energy levels for Bosons and Fermions, Pauli’s exclusion principle, and the wave functions corresponding to Bosons and Fermions.

Develop skills in areas related to specialization in the subfields of physics-Microprocessor, Microcontroller, VHDL, ARM7 and C++ (OOP).

RPSPHY204

Solid State Devices

1. Understand crystal structures of different intrinsic semiconductors their energy band diagrams, importance of Fermi level in Direct and indirect bandgap semiconductors.

2. Study about P-N junction diodes its fabrication by different processes. Characteristics like I-V and C-V characteristics and evaluate the dependence of reverse saturation current on minority carrier concentration and forward diffusion current on potential barrier.

3. Learn about Metal- Semiconductor contacts like Schottky and Ohmic Contacts and its I-V and C-V characteristics

4. Describe the principle and analyze the operation of Bipolar Junction Transistors, MOSFETs, MODFETs, MESFETs and study its I-V and C-V characteristics.

5. Demonstrate cautious problem solving skills in all above areas.

6. Carry out the experiments based on the theory that they have learnt to measure I-V, C-V characteristics on semiconductor specimen, carrier mobility by conductivity, barrier capacitance of a junction diode and Energy band gap.

Demonstrate communication skills, to present complex information in a concise manner and develop personal skills such as the ability to work both independently and in a group.

RPSPHY301

Statistical Mechanics

1.Understand Statistical Basis of Thermodynamics, in particular ensemble Theory.

2. Developing formalism of Canonical Ensemble, analysis with partition function

3. Comprehend concept of statistics of Para-magnetism, thermodynamics of magnetic systems..

4. Developing formalism of Grand Canonical Ensemble

5. Exploring physical significance of statistical quantities-Density and energy fluctuations

6. Formulation of Quantum Statistics- Statistics of the various ensembles

7. Demonstrate problem solving skills in all above areas

RPSPHY302

Nuclear Physics

1.Understand all static properties of nuclei

2. Formulate an expression for nuclear size, Deuteron problem and Fermi golden rule.

3. Acquire knowledge about the spin orbit interaction and selection rules.

4. Differentiate between elementary particle and properties of neutrino.

5. Compare and study of different nuclear models and nuclear reactions.

6. Understand the basics of Quantum Electrodynamics and Quantum Chromodynamics .

7. Demonstrate quantitative problem solving skills in all the topics covered

RPSPHY303

Microcontrollers and Interfacing

1.Understand the basic architecture and the assembly language programming of 8051controller & PIC microcontrollers

2. Understand the basics of 8051 serial communication and serial port programming in assembly language

3. Understand the basic programming of the microcontroller with and without the interrupt service request.

4. Acquire knowledge of microcontrollers and their role in I/0 port programming and their interface with peripherals.

5. Get exposure to the simulators and software which. mimics the behaviour of a mainframe microcontrollers

6. Demonstrate the practical utility of microcontrollers through experiments

7. In the laboratory course, student will gain hands-on experience of the working and applications of the microcontrollers.

RPSPHY304

Embedded Systems and RTOS

1.Understand the basic architecture and the assembly language programming of 8051controller & PIC microcontrollers

2. Understand the basics of 8051 serial communication and serial port programming in assembly language

3. Understand the basic programming of the microcontroller with and without the interrupt service request.

4. Acquire knowledge of microcontrollers and their role in I/0 port programming and their interface with peripherals.

5. Get exposure to the simulators and software which. mimics the behaviour of a mainframe microcontrollers

6. Demonstrate the practical utility of microcontrollers through experiments

7. In the laboratory course, student will gain hands-on experience of the working and applications of the microcontrollers.

RPSPHY401

Experimental Physics

1.Understand the basics of different probability distributions and central limit theorem.

2. Understand the different types of error and uncertainty in the measurements.

3. Get exposure to different types of characterization techniques for material analysis..

4. Understand the basics of vacuum pumps and production of low pressure.

5. Differentiate and study of different types of nuclear detectors and nuclear accelerators.

6. Explore and understand the basics of flow types and number density.

7. Demonstrate quantitative problem solving skills in all the topics covered.

RPSPHY402

Atomic and Molecular Physics

1.Understand the different effects and the Exclusion principle.

Formulate an expression for Einstein coefficients, dipole approximations with selection rules.

2. Acquire knowledge about the Central field and different coupling approximations.

3. Differentiate between energy levels and orbital theories.

4. Compare and study of different electronic spectra and molecule rotations.

5.Explore and understand the basics of Raman, ESR and NMR Spectrometer. .

6. Demonstrate quantitative problem solving skills in all the topics covered.

RPSPHYP403

Advanced Microprocessor and ARM 7

1.Understand the basic of architecture and of 8086 microprocessor and ARM7.

2. Understand the basic assembly programming of 8086 microprocessor and ARM7.

3. Understand the concepts of serial I/O, data communication and the 8085 Interrupt.

4. Understand the basic concepts of Programmable Peripheral and Interface Devices like 8255 and 8259A with microprocessor 8085.

5. Get exposure to the simulators and software which. mimics the behavior of the microprocessors

6. Demonstrate the practical utility of microprocessor through experiments.

7. In the laboratory course, student will gain hands-on experience of the working and applications of the microprocessors.

RPSPHYP404

VHDL and Communication Interface

1.Understand the basic Architecture of VHDL

2. Understand the basic of VHDL programming with examples.

3. Acquire knowledge on how to simulate and implement combinational and sequential circuits using VHDL systems.

4. Understand the VHDL Interfacing programming.

5. Understand the basics of USB and USB Protocols.

6. Understand the basics of Communication Interface.

7. In the laboratory course, student will gain hands-on experience of the working and applications of VHDL.

Subject

Programme Specific outcomes

Course Code

Paper Title

Course Outcomes

ZOOLOGY

Identify, explore, understand the classification of invertebrates and vertebrates and compare between the anatomy and physiology of different phylum.

RPSZOO101

Animal Systematics, Ethology and Ecology-I

1. Enumerate& classify the characteristics of different phyla. 2. Compare and contrast between taxonomic procedures of animal classification. 3. Interrelate the working and different systems of non-chordates and link it with their evolutionary process. 4. Understand and comprehend the broad concepts of animal behaviour and its applications in various fields of research. 5. Analyze the different concepts in the field of population ecology, identify different population growth curves and correlate it with life strategies of different animals.

Gain comprehensive knowledge about different animal species and appreciate the differences and similarities, thereby achieving proficiency in handling them experimentally or for research purposes.

RPSZOO102

Biochemistry and Metabolism – I

1. Understand and analyse the classification, structures, and functions of Carbohydrates, Lipids and Nucleic acids. 2.Enumerate the law of Biochemical thermodynamics, ETS chain reaction and oxidative phosphorylation concepts. 3. Apply the knowledge of antioxidants and free radicals quenching to cancer research and anticancer activity. 4. Compare and contrast between different metabolic pathways and understand its significance. 5.Analyse and understand the different cell signalling pathways and apply it in the field of cancer genetics. 6.Calculate Normality, Molarity and prepare solutions of different strengths.

Understand and learn various behavioural patterns displayed by animals and interrelate to evolutionary pattern.

RPSZOO103

Genetics and Developmental Biology

1.Understand in detail the principles of Mendelian and Non Mendelian genetics. 2.Correlate the concept of non-disjunction as a genetic anomaly with different genetic disorders and maternal age. 3.Identify different cell cycle checkpoints and correlate them with cancer. 4.Solve genetic problems based on three-point cross over, epistasis, complementation and multipleallelism. 5.Understand and analyse different concepts in developmental biology and correlate it with evolution.

Evaluate and analyse basics of chemical thermodynamics and various biochemical pathways with respect to metabolism.

RPSZOO104

Applied Zoology-I

1.Understand and comprehend the principle, working and applications of Microtomy, Microscopy and centrifugation. 2.Compare and contrast between different types of microscopes and centrifuges. 3. Develop skills with regards to computer applications like data analysis and SPSS in biostats and solve problems based on t test, z test, chi square test, ANOVA etc. 4. Develop skills to write research papers and literature reviews.

Analyse the various communication pathways taking place inside the cell and interrelate it with genetics.

RPSZOO201

Animal Systematics and Ethology- II

1. Enumerate& classify the characteristics of different non-chordates and chordates. 2. Compare and contrast between phylogeny of different protochordates. 3.Interrelate the working and different systems of non-chordates and link it with their evolutionary process 4.Understand and comprehend the broad concepts of animal behaviour and its applications in various fields of research. 5. Correlate the different aspects of animal behaviour, social behaviour and learning or memory to evolutionary aspect.

Compare and contrast between Mendelian inheritance, Extension of Mendelian genetics and Non-Mendelian genetics

RPSZOO202

Biochemistry and Metabolism- II

1. Understand and analyse the classification, structures, and functions of Proteins and enzymes. 2. Enumerate and understand the concept of enzyme kinetics. 3.Compare and contrast between competitive, non-competitive, and uncompetitive mechanism of enzyme kinetics and correlate it with Vmax and Km. 4. Compare and contrast between different metabolic pathways and understand its significance. 5. Analyse and understand the different inborn errors of metabolism

Interpret and analyse how morphological change due to change in environment helps drive evolution over a period of time.

RPSZOO203

Molecular Biology, Syndromes and Evolution

1. Understand and comprehend the concepts of DNA replication, DNA repair and protein synthesis. 2. Correlate the concept of genetic disorders and chromosomal variations. 3. Understand and analyse the concepts of allelic frequencies, natural selection and heterosis. 4. Apply the principle of genetics to calculate gene frequencies and allelic frequencies.

Compare the different developmental stages of all the animals and connect it to the evolutionary link.

RPSZOO204

Applied Zoology- II

1. Understand and comprehend the principle, working and applications of Chromatography and electrophoresis techniques. 2. Recognise the resources for accessing research papers, and develop the skill of writing review articles. 3. Evaluate and understand broad concepts of bioinformatics. 4. Demonstrate efficacy studies in the experimental techniques for any biological project. 5.Understand the ethical aspects of research.

Apply the fundamentals and techniques of molecular biology in various fields.

RPSZOP301

Life Processes-I

1. Understand the nutritive system food processing, nutritive types and significance of Probiotics in therapeutic nutrition. 2. Discern chemistry of respiration, comparative study of respiratory system in vertebrates and also to study the role of medulla in respiration process. 3. Understand about Rheology, comparative account of circulation in vertebrates and gaining knowledge about the common circulatory disorders in human. 4.Comprehend structural, functional dimensions of neurophysiology, physiology of addiction and Neurophysiological disorders. 5. Gain hands on experience operate the sphygmomanometer and Apply their knowledge of blood pressure monitoring during various physiological conditions.

Develop an ability to analyse present and interpret various concepts of Immuno and Cancer Biology.

RPSZOP302

Immunology and Cancer Biology

1. Understand the immune response in human systems. 2.Comprehend about the camel nanobodies and its significance in human healthcare. 3. Understanding the monoclonal antibodies and its role in hybridoma technology and therapeutics. 4.Explore various factors involved in development of Cancer. 5. Compare and contrast between different types of vaccines and its application in human health care with special reference to various COVID-19 vaccines.

Understand the broad concepts of Life processes, Endocrinology, Assisted reproductive techniques, Animal biotechnology and develop employable skills.

RPSZOP303

Reproduction Biology

1. Exploring the field of Reproductive Biology and Physiology. 2.Gain the knowledge about the hormonal control of spermatogenesis, sperm maturation and also about the potential male contraceptives. 3. Understanding the various Molecular Events of fertilization, Implantation Process, Pregnancy, Parturition and Lactation. 4. Compare and contrast between different IVF techniques, gamete collection process and sensitise regarding ethical issues involved in this field. 5.Explore the skills required in the field of Assisted Reproductive technology.

Explore some of the unique migratory patterns of animals and understand their biological rhythms.

RPSZOP401

Animal Biotechnology

1. Understand various animal models and instruments used for Animal tissue culture. 2. Demonstrate an understanding of media preparations and passaging techniques for animal tissue culture. 3. Explain and contrast the various animal models used in biotechnology and understand their applications. 4. Gain an experience at handling laboratory animals and their maintenance and care. 5.Develop a holistic appreciation on animal biotechnology and human therapies. 6. Engage in various practical activities related to techniques involved in animal tissue culture.

Apply their knowledge in problem solving and future course of their career development in higher education and research.

RPSZOP402

Life Processes-II

1. Understand the process of thermoregulation and temperature compensation in homeotherms and poikilotherms. 2. Compare and contrast between the physiology of skeletal, smooth and cardiac muscle. 3. Explain and contrast between the various physiologies of osmoregulation of freshwater, marine and terrestrial animals. 4.Explore some of the exciting and curious questions on COVID 19 related loss of sense of smell and taste. 5. Analyse and understand the detailed process of Dialysis and Kidney care. 6. Critically analyse, interpret and evaluate information relevant to animal physiology.

Develop critical thinking, planning and executing research projects and develop employable skills in the field of Animal Physiology.

RPSZOP403

Endocrinology

1. Understand & comprehend the invertebrates’ endocrine organs & systems, its anatomical organization, hormones and role of hormones in complex physiological process like reproduction, development, metamorphosis. 2. Understand and gain the knowledge about neuro endocrine integration and reflexes and a deep insight about hormones and its types. Understand working of hormones at target site. 3. Compare & contrast developmental and phylogenetic relationship of endocrine glands between different vertebrates’ group. 4. Understand the various endocrine glands of vertebrates, their position, microanatomy, hormones and complex interrelationship between them. 5.Develop employable skill related to endocrine glands. Explore new technologies in studying the endocrine glands.

RPSZOP404

Biological rhythm and Ecophysiology

1. Understand & comprehend the deep insight of migration amongst animal and complex biochemical and physiological process that regulate it. 2. Learn and understand about the complex physiological processes that govern sleep, dream and biological rhythms. 3.Learn and analyse the effects of radiation at the cellular & molecular level, role & example of biomolecules involves in trapping the light energy in living being also understand the phenomenon of radioprotection. 4. Understand & learn about temperature as an important environmental factor, temperature and types of animals and biochemical adaptation of animals at different thermal range. 5. Develop practical skill related to temperature on some physiological aspects of animals. Students also learn a deep insight about some very interesting migratory animals, sleep and sleep disorder.