M.Sc.
1. Master of Science (M.Sc):-
M.Sc is a two-year duration postgraduate degree course offered by universities and colleges in various specialized Science fields such as Physics, Biology, Chemistry, Mathematics, Botany, Biotechnology, Microbiology, Environmental Sciences, Food Sciences, Life Sciences, and so on.
A Master of Science degree provides scientific as well as professional entry-level competency to students. The course offers advanced theoretical as well as practical knowledge to students in their chosen specialization. The M.Sc specialization opted by students is usually the one studied by them during graduation.
If you are a graduate looking for career options in the field of Science, given below is everything you need to know about M.Sc in terms of its required skill set, basic eligibility criteria, course curriculum, top entrance exams, job profiles, etc.
2. Duration:- 2 years
3. Eligibility criteria:-
All candidates need to possess a bachelor’s degree in Science from a recognized college/ university. Minimum marks that candidates need to secure in graduation in order to be eligible for an M.Sc course is usually 50 – 60%. However, the required percentage might change depending on the policy of a university or institute in which a candidate is applying.
Age bar: There is usually no age criteria to join an M.Sc course.
4. Syllabus:-
An M.Sc course is offered in a number of specializations. Some of the popular M.Sc specializations include Physics, Chemistry, Mathematics, Biology, Computer Science, Environmental Sciences, Biotechnology, Microbiology, Statistics, Life Sciences, and Food Sciences.
The course curriculum of an M.Sc course depends on the specialization a candidate has chosen to pursue. Given below is an overview of subjects taught in some of the popular M.Sc specializations:
Physics
Mathematical Methods
| Classical Mechanics
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Quantum Mechanics
| Classical Electrodynamics
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Solid State Physics
| Electronics
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Atomic Spectroscopy
| Nuclear and Particle Physics
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Relativity and Cosmology
| Advanced Optics
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Radiation Theory
| Atomic and Molecular Physics
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Statistical Mechanics
| Advanced Quantum Mechanics
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Computer Applications in Physics
| Molecular Spectroscopy
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Astrophysics
|
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Inorganic Chemistry
| Organic Chemistry
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Physical Chemistry
| Analytical Chemistry
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Inorganic Reaction Mechanism and Organometallics
| Organic Reactions Mechanisms
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Principles of Spectroscopy
| Organic Synthetic Methods
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Chemistry of Materials
| Nuclear & Radiochemistry
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Computational Chemistry
| Advanced Quantum Chemistry
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Chemical Dynamics and Electrochemistry
| Applications of Spectroscopy
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Macromolecules
| Advanced Chemical Kinetics and Electrochemistry
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Transition and Non-transition Metal Chemistry
| Group Theory and Spectroscopy
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Concepts in Organic Synthesis
| Modern Techniques and Scope of Chemical Biology
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Classical and Statistical Thermodynamics
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Advanced Abstract Algebra
| Real Analysis
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Advanced Differential Equations
| Differential Geometry
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Dynamics of a Rigid Body
| Linear Algebra
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Topology
| Special Functions
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Hydrodynamics
| Complex Analysis
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Mechanics
| Advanced Analysis
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Numeral Analysis
| Measure and Integration
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Fluid Dynamics
| General Measure Theory
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Matrix Analysis
| Theory of Operations
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Vector Analysis
| Geometry of Numbers
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Genes and Genomics
| Metabolism and Metabolomics
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(Organismic Biology and Cell Biology
| Molecules of living systems
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Proteins and Proteomics
| Recombinant DNA Technology
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Cell Biology
| Methods in Applied Sciences
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Microbiology
| Biochemistry
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Biostatistics and Bioinformatics
| Research Methodology and IPR
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Molecular Oncology and Molecular Medicine
| Clinical Immunology
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Recent Advances in Biology
| Introduction to Pharmacology
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Catalysis
| Plant physiology
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Animal physiology
| Genetics
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Biophysics and structural biology
| Computational biology and bioinformatics
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