The course serves as an introduction to differential equations and provides a prerequisite for further study in those areas.

- Advanced Analytical Dynamics
- Advanced Calculus
- Advanced Finite Element Analysis
- Advanced Functional Analysis
- Advanced Graph Theory
- Advanced Integral Equations
- Advanced Numerical Analysis
- Advanced Operations Research
- Advanced Optimization Techniques
- Advanced Optimization Theory
- Advanced Partial Differential Equations
- Advanced Ring Theory
- Affine and Euclidean Geometry
- Algebraic Number Theory
- Algebraic Topology
- Analysis of Algorithms
- Analytical Dynamics
- Analytical Mechanics
- Approximation Theory and Applications
- Business Mathematics & Statistics
- Calculus and Analytic Geometry
- Calculus of Variations
- Calculus-I, II, III
- Combinatorics
- Complex Analysis
- Computational Fluid Dynamics
- Differential Equations
- Differential Equations
- Differential Geometry
- Discrete Mathematics
- Elements of Set Theory and Mathematical logic
- Field Extensions and Galois Theory
- Financial Mathematics I & II
- Fixed Point Theory and Applications
- Fluid Mechanics-I
- Fourier Analysis
- Functional Analysis I
- Functional Analysis II
- Fundamentals of Engineering Mathematics
- Further Mathematics
- Fuzzy Differential Equations
- Fuzzy Logic and Algebra
- Group Theory I & II
- Group Theory-I
- Integral equations
- Integral Inequalities
- LA-Semigroups
- Lecture Series on Computer Tools for Mathematics
- Linear Algebra
- Mathematical Analysis of Heat Transfer
- Mathematical Modeling and Simulation
- Mathematical Models in Biomathematics
- Mathematical Statistics
- Mathematical Techniques For Boundary Value Problems
- Mathematics Business
- Measure and Integration
- Measure Theory
- Modeling and Simulation
- Multivariable Calculus and Transforms
- Non-Newtonian Fluid Mechanics
- Number Theory
- Numerical Analysis
- Numerical Methods
- Numerical Solution of Partial Differential Equations
- Operation Research
- Optimization Theory
- Ordinary Differential Equations
- Partial Differential Equations
- Perturbation Methods
- Plasma Theory
- Plasma Theory I & II
- Real Analysis
- Research Methodology
- Rings and Fields
- Semigroup Theory
- Set Topology
- Special Functions
- Stochastic Calculus I & II
- Symmetries and Exact Solutions of Differential Equations
- Theory of Modules
- Theory of Group Actions
- Theory of Group Graphs
- Theory of Splines
- Topological Vector Spaces