Programmes structure

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Semester 1 – 2: Foundation year – common to all specializations

Semester	Name of the Courses
1	Bio-1
	Chem-1
	Math-1
	Physics-1
	English Communication
	Design thinking for Scientists
	Constitution of India and Professional Ethics
2	Bio-2
	Chem-2
	Math-2
	Physics-2
	Critical thinking
	Research methodology
	Yoga

Semester 3 – 8: Specializations & Research

Semester	Name of the Courses
3	Specialization – 1
	Program Specific foundation – 1
	Basics of Programming
	Skill Enhancement Course – 3
	Minor – 1
	Minor – 2
	University Elective – 1
4	Program Specific foundation – 2
	Program Specific Foundation – 3
	Specialization – 2
	Minor – 3
	Minor – 4
	University Elective – 2
	Value added course 3
	Skill Enhancement Course 4
5	Specialization – 3
	Specialization – 4
	Minor – 5
	Minor – 6
	University Elective – 3
	Ability Enhancement Course – 3
	Value Added Course – 4
	Summer Internship
6	Program Specific Foundation – 4
	Specialization – 5
	Specialization – 6
	Minor – 7
	Minor – 8
	University Elective – 4
	Ability Enhancement Course – 4
7	Advanced Foundation Course -1
	Specialization – 7
	Specialization – 8
	Minor – 9
	Research – 1
8	Advanced Foundation Course -2
	Specialization – 9
	Specialization – 10
	Minor – 10
	Research – 2

Semester 9 – 10: For Integrated B.Sc. – M.Sc. (5 Years) – Advanced Study & Deep Research

Semester	Name of the Courses
9	Advanced Self Study – 1
	Advanced Self Study – 2
	Multidisciplinary/University Elective – 5
	MOOC
	Advanced Research
10	Advanced Study -3
	Thesis Project
	Defense Seminar

Tentative Program Foundation and Major Specialization Courses*

Astrophysics	Quantum Technology	Bioinformatics	Molecular Biotechnology
Classical Dynamics and Relativity Mathematical Methods for Physical Sciences Advanced Quantum Mechanics & Applications Atomic, Molecular and Solid-State Physics Scientific Computing and Data Analysis Advanced Physics Concepts Introduction to Astronomy, Astrophysics, and Cosmology Observational Astrophysics Stellar Dynamics and Structure General Relativity and Gravitaional Astrophysics Galactic Dynamics and Cosmology Computational Astrophysics	Classical Dynamics and Relativity Mathematical Methods for Physical Sciences Advanced Quantum Mechanics & Applications Atomic, Molecular and Solid-State Physics Scientific Computing and Data Analysis Advanced Physics Concepts Lab Course on Quantum Technology Quantum Information and Computation Quantum Optics and Photonic Technologies Condensed Matter Physics for Quantum Technologies Introduction to Quantum Sensing and Metrology Computational Quantum Sciences	Foundations of molecular and cellular systems Quantitative biology and experimental design Introduction to bio-programming Cell and Molecular Biology Biochemistry Evolutionary Biology and Phylogenetics Molecular Modelling and Drug Discovery Genetics and Genetic Engineering Data Structures and Algorithms Biostatistics Omics (Genomics, Transcriptomics, Proteomics, Metabolomics, Metagenomics) AI and ML in Biological Data	Foundations of molecular and cellular systems Quantitative biology and experimental design Cell and Molecular Biology Microbiology Biochemistry Genetic Engineering and Synthetic Biology Immunology Agricultural Biotechnology Animal Biotechnology Nanotechnology and Omics Technology Bioprocess Technology Biostatistics

Astrophysics

Quantum Technology

Bioinformatics

Molecular Biotechnology

Classical Dynamics and Relativity

Mathematical Methods for Physical Sciences

Advanced Quantum Mechanics & Applications

Atomic, Molecular and Solid-State Physics

Scientific Computing and Data Analysis

Advanced Physics Concepts

Introduction to Astronomy, Astrophysics, and Cosmology

Observational Astrophysics

Stellar Dynamics and Structure

General Relativity and Gravitaional Astrophysics

Galactic Dynamics and Cosmology

Computational Astrophysics

Classical Dynamics and Relativity

Mathematical Methods for Physical Sciences

Advanced Quantum Mechanics & Applications

Atomic, Molecular and Solid-State Physics

Scientific Computing and Data Analysis

Advanced Physics Concepts

Lab Course on Quantum Technology

Quantum Information and Computation

Quantum Optics and Photonic Technologies

Condensed Matter Physics for Quantum Technologies

Introduction to Quantum Sensing and Metrology

Computational Quantum Sciences

Foundations of molecular and cellular systems

Quantitative biology and experimental design

Introduction to bio-programming

Cell and Molecular Biology

Biochemistry

Evolutionary Biology and Phylogenetics

Molecular Modelling and Drug Discovery

Genetics and Genetic Engineering

Data Structures and Algorithms

Biostatistics

Omics (Genomics, Transcriptomics, Proteomics, Metabolomics, Metagenomics)

AI and ML in Biological Data

Foundations of molecular and cellular systems

Quantitative biology and experimental design

Cell and Molecular Biology

Microbiology

Biochemistry

Genetic Engineering and Synthetic Biology

Immunology

Agricultural Biotechnology

Animal Biotechnology

Nanotechnology and Omics Technology

Bioprocess Technology

Biostatistics

Computational mathematics	Nutrition and Dietetics	Polymer Chemistry	Pharmaceutical Chemistry
Advanced Calculus & Analysis I Linear Algebra & Abstract Vector Spaces Introduction to Scientific Computing & Python Numerical Linear Algebra & Optimization Numerical Methods for Differential Equations Computational Probability & Statistical Inference Modeling & Simulation Lab Data-Driven Modeling & Machine Learning Fundamentals High-Performance & Parallel Computing Quantitative & Financial Mathematics Data Science & Learning Computational Fluid Dynamics & Continuum Mechanics	Introduction to Food Science and Technology Human Nutrition and Metabolism Clinical Nutrition and Diet Planning Food Processing and Preservation Techniques Nutritional Biochemistry and Functional Foods Public Health Nutrition Food Product Development and Innovation Advanced Dietetics and Medical Nutrition Therapy Food Regulations and Labeling Sports and Fitness Nutrition Food Sensory Evaluation and Consumer Science Research Methods in Food and Nutrition	Advanced Inorganic Chemistry I Advanced Organic Chemistry I Introduction to Polymer Science Polymer Synthesis & Reaction Engineering Polymer Characterization & Rheology Structure-Property Relationships in Polymers Plastics, Elastomers, and Composite Materials Specialty & Advanced Polymers Polymer Processing & Manufacturing Technology Polymer Degradation, Stabilization, and Recycling Green Polymer Chemistry & Sustainable Materials Industrial Applications of Polymer Chemistry	Advanced Inorganic Chemistry I Advanced Organic Chemistry I Fundamentals of Medicinal Chemistry Organic Synthesis for Drug Discovery Spectroscopy in Pharmaceutical Analysis Pharmacology & Molecular Basis of Drug Action Pharmaceutical Analysis & Quality Control Drug Design & Computational Chemistry Heterocyclic & Natural Product Chemistry Advanced Pharmacokinetics & Drug Metabolism Pharmaceutical Formulation & Drug Delivery Systems Pharmaceutical Chemistry: From Discovery to Market

Computational mathematics

Nutrition and Dietetics

Polymer Chemistry

Pharmaceutical Chemistry

Advanced Calculus & Analysis I

Linear Algebra & Abstract Vector Spaces

Introduction to Scientific Computing & Python

Numerical Linear Algebra & Optimization

Numerical Methods for Differential Equations

Computational Probability & Statistical Inference

Modeling & Simulation Lab

Data-Driven Modeling & Machine Learning Fundamentals

High-Performance & Parallel Computing

Quantitative & Financial Mathematics

Data Science & Learning

Computational Fluid Dynamics & Continuum Mechanics

Introduction to Food Science and Technology

Human Nutrition and Metabolism

Clinical Nutrition and Diet Planning

Food Processing and Preservation Techniques

Nutritional Biochemistry and Functional Foods

Public Health Nutrition

Food Product Development and Innovation

Advanced Dietetics and Medical Nutrition Therapy

Food Regulations and Labeling

Sports and Fitness Nutrition

Food Sensory Evaluation and Consumer Science

Research Methods in Food and Nutrition

Advanced Inorganic Chemistry I

Advanced Organic Chemistry I

Introduction to Polymer Science

Polymer Synthesis & Reaction Engineering

Polymer Characterization & Rheology

Structure-Property Relationships in Polymers

Plastics, Elastomers, and Composite Materials

Specialty & Advanced Polymers

Polymer Processing & Manufacturing Technology

Polymer Degradation, Stabilization, and Recycling

Green Polymer Chemistry & Sustainable Materials

Industrial Applications of Polymer Chemistry

Advanced Inorganic Chemistry I

Advanced Organic Chemistry I

Fundamentals of Medicinal Chemistry

Organic Synthesis for Drug Discovery

Spectroscopy in Pharmaceutical Analysis

Pharmacology & Molecular Basis of Drug Action

Pharmaceutical Analysis & Quality Control

Drug Design & Computational Chemistry

Heterocyclic & Natural Product Chemistry

Advanced Pharmacokinetics & Drug Metabolism

Pharmaceutical Formulation & Drug Delivery Systems

Pharmaceutical Chemistry: From Discovery to Market

*Some titles may be subject to change

Programmes structure

Semester 1 – 2: Foundation year – common to all specializations

Semester 3 – 8: Specializations & Research

Semester 9 – 10: For Integrated B.Sc. – M.Sc. (5 Years) – Advanced Study & Deep Research

Tentative Program Foundation and Major Specialization Courses*

RV Vidyanikethan Post 8th Mile , Mysuru Road, Bengaluru – 560 059

+91 89511 79896

admissions@rvu.edu.in

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RV University Mysuru Campus, RV Vidyanikethan Post, Nanjangud, Mysuru – 570018

City office: RV University Mysuru, Admissions Office, Brigade Point, 3rd Floor, Gokulam Road, VV Mohalla, Mysuru. Karnataka 570002

Mysuru Campus: KIADB Industrial Area, Kallahalli Industrial Area, Nanjangud, Mysuru Dist. Karnataka 571302