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Lesson 39: Series Solutions about a Regular Singular Point Lesson 38: Series Solutions about an Ordinary Points (Cont.) Lesson 37: Series Solutions about an Ordinary Point Lesson 36: Methods for Solving Simultaneoous Ordinary Differential Equations Lesson 35: Equations Reducible to Linear Differential Equations with Constant Coefficient Lesson 34: Method of Variation of Parameters Lesson 33: Method of Undetermined Coefficients Lesson 32: Linear Differential Equations of Higher Order (Cont.) Lesson 31: Linear Differential Equations of Higher Order Lesson 30: Linear Differential Equations of Higher Order Lesson 29: Exact Differential Equations : Integrating Factors Lesson 28: Exact Differential Equations of First Order

Lesson 27: Linear Differential Equation of First Order Lesson 26: Differential Equations of First Order Lesson 24: The Beta Function Module 3: Ordinary Differential Equations Lesson 22: Area & Volume using Double and Triple Integration Lesson 19: Volume and Surface of Revolution Lesson 12: Convexity, Concavity and Points of InflexionĪlso Download: Mathematics PDF Book Module 2: Integral Calculus Lesson 11: Lagrange’s Multiplier Rule / Constrained Optimization Lesson 10: Maximum and Minimum of Function of Two Variables Lesson 9: Taylor’s Expansion for Function of Two Variables Lesson 7: Composite and Implicit functions for Two Variables Lesson 6: Homogeneous Functions, Euler’s Theorem

Lesson 4: Limit, Continuity of Functions of Two Variables Lesson 3: Indeterminate forms L’Hospital’s Rule Lesson 2: Taylor’s Theorem / Taylor’s Expansion, Maclaurin’s Expansion Lesson 1: Rolle’s Theorem, Lagrange’s Mean Value Theorem, Cauchy’s Mean Value Theorem KumarĪlso Download: Engineering Mathematics-3 Outlines of Engineering Mathematics-I Module 1: Differential Calculus

Engineering mathematics is a branch of applied mathematics concerning mathematical methods and techniques that are typically used in engineering and industry.Īuthor: Prof.