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Mathematical Methods for Economics-I
This is the first of a compulsory two-course sequence. The objective of this sequence is to transmit the body of basic mathematics that enables the study of economic theory at the undergraduate level, specifically the courses on microeconomic theory, macroeconomic theory, statistics and econometrics set out in this syllabus. In this course, particular economic models are not the ends, but the means for illustrating the method of applying mathematical techniques to economic theory in general. The level of sophistication at which the material is to be taught is indicated by the contents of the prescribed textbook.
Logic and proof techniques; sets and set operations; relations; functions and their properties; number systems.
Graphs; elementary types of functions: linear, quadratic, polynomial, power, exponential, logarithmic; limits; continuous functions: characterizations, properties with respect to various operations and applications; differentiable functions: characterizations, properties with respect to various operations and applications; sequences and series: convergence, algebraic properties and applications.
First and second and higher order derivatives: properties and applications.
Geometric properties of functions: convex and concave functions; local and global optima using calculus and its applications.
Areas under curves, indefinite integral, definite integral, economic applications of integration, integration by parts, integration by substitution.
K. Sydsaeter and P. Hammond, Mathematics for Economic Analysis, Pearson Educational Asia: Delhi, 2002.
