This Programme emphasizes Mathematical skills which establish a strong foundation in academics for a successful transition to a research career or the industrial workplace. It offers a dynamic and engaging approach for long-standing educational background focusing on future goals.

It is designed to provide a well-rounded, broad education that equips graduates with the knowledge base, theory, and methodology of the mathematical sciences.

Programme Structure:

The course aims at motivating the young minds for research in mathematical sciences and to train computational scientists who can work on real-life challenging problems. The main intend of the course is to provide in-depth knowledge to the students in advanced applied mathematics and prepare them for various research activities.

M.Sc. Mathematics syllabus includes assignments, projects, field works along with a number of core subjects, elective subjects, and labs. More importance is given to the implementation and assessment of various mathematical models.

Program Educational Objectives (PEO)

PEO 1: To provide opportunities for higher studies in the professional area of Mathematics such as Research.
PEO 2: To impart knowledge on various theoretical and practical aspects of Mathematics with respect to industry exposure.
PEO 3: To develop independent learning skills and transferable skills among the students.
PEO 4: To strengthen the student’s logical and analytical ability to deal with the generality and abstraction of mathematical principles.

Program Specific Outcomes (PSO):

PSO 1:   Provide a deeper knowledge of mathematical techniques and develop the ability to create their own research ideas.

PSO 2:   Develop the ability to handle Mathematical software to develop the research articles in the future.

PSO 3:   Inculcate the capacity to transfer the mathematical knowledge for their industrial career.

PSO 4:   Induce the interest to communicate Mathematics effectively and precisely using technology.

Program Outcomes (PO):

PO 1: Remember the fundamental concepts and principles of various areas of mathematics.
PO 2: Demonstrate the concepts and theories of mathematics to the real world.
PO 3: Understand the significance of information from sources that include books, Journals, Scientific reports, and the internet.
PO 4: Develop the knowledge to the students for the competitive exams includes CSIR, NET, SET, etc., and to win a range of rewarding positions in the public and private sectors.
PO 5: Create problem-solving skills and apply them independently to problems in pure and applied mathematics.
PO 6: Develop proficiency in analyzing and solving scientific problems.
PO 7: Apply the techniques, skills, and modern technology necessary to communicate effectively with professional responsibility.
PO 8: Solve complex mathematical problems using the knowledge of pure and applied mathematics.
PO 9: Explain the knowledge of contemporary issues in the field of mathematics and applied sciences.
S.No Sem Part Type Sub Code Subject Credit Hour Int Ext Total
1 1 III Theory Algebra 4 5 40 60 100
2 1 III Theory Real Analysis 4 5 40 60 100
3 1 III Theory Ordinary  Differential Equations 4 5 40 60 100
4 1 III Theory Operations Research 4 5 40 60 100
5 1 III Theory& Practical Latex & Practical 4 6 40 60 100
1 2 III Theory Complex Analysis 4 5 40 60 100
2 2 III Theory Linear Algebra 4 5 40 60 100
3 2 III Theory Partial Differential Equations 4 4 40 60 100
4 2 III Theory Mathematical Statistics 4 4 40 60 100
5 2 III Theory Graph Theory 4 4 40 60 100
6 2 III Theory Elective-I 4 5 40 60 100
1 3 III Theory Topology 4 5 40 60 100
2 3 III Theory Fuzzy Logic and Systems 4 5 40 60 100
3 3 III Theory Mechanics 4 5 40 60 100
4 3 III Theory Elective-II 4 5 40 60 100
5 3 III Theory& Practical Matlab &Practical 4 4 40 60 100
7 3 III Practical Core Practical – VI – Industrial Training Report 2 50 50
1 4 III Theory Functional Analysis 4 5 40 60 100
2 4 III Theory Fluid Dynamics 4 5 40 60 100
3 4 III Theory Mathematical Methods 4 5 40 60 100
4 4 III Theory Elective-III 4 5 40 60 100
5 4 III Project Project 8 5 40 160 200
90       2250

Elective Subjects:

Subject Code Subject Name
Elective-I       A Numerical Methods
      B Cryptography
      C Astronomy
Elective-II       A Control Theory
      B Operator Theory
      C Probability Theory
Elective-III      A Stochastic Processes
     B Number Theory
     C Differential Geometry

Note :

  1. Learning the courses – Packages like Mathematica, Latex, and Matlab also  Career Enhancement Course – student shall appear for the NSDC Certification.

@ –     No End Semester Examination, only Internal Exam.

#    –     No Internal Examination, only End Semester Exam.

In a progressively competitive international market, an M.Sc degree can facilitate in setting an individual stand out from other graduates. Pursuing an M.Sc, the degree gives students the chance to learn as much as they can about their area of interest through focused education, honing their skills, improving on their technical capabilities, and primarily becoming a specialist in the field.

  • Manager/Executive (Senior/Assistant/Junior)
  • Research Assistant
  • Laboratory Technician
  • Food and Drug Inspector
  • Chemical Analyst
  • Professor
  • Junior Research Fellow
  • Biochemist
  • Mathematician
  • Data Scientist etc…
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