MAT-60206 Mathematical Analysis, 5 cr

Additional information

Suitable for postgraduate studies.

Person responsible

Janne Kauhanen

Lessons

Implementation Period Person responsible Requirements
MAT-60206 2017-01 3 Janne Kauhanen
Final exam, weekly exercises, and weekly written exercises.

Learning Outcomes

This course introduces students to the fundamentals of mathematical analysis at an adequate level of rigor. Upon successful completion of the course, student will be able to: - Read mathematical texts and proofs, - Use the definitions and apply the basic results that are introduced during this course, and - Produce rigorous proofs of results that arise in this course using direct and indirect proof, induction and epsilon-delta technique.

Content

Content Core content Complementary knowledge Specialist knowledge
1. THE REAL NUMBERS Field and ordering properties of the real numbers, supremum and infimum, the Completeness Axiom, limit points.  Open and closed sets.  Heine-Borel Theorem and Bolzano-Weierstrass Theorem. 
2. THE LIMIT AND CONTINUITY OF FUNCTIONS DEFINED ON SUBSETS OF THE REAL LINE Continuity of the sum, the product, the quotient, and the composition of continuous functions. Boundedness, the existence of min and max and the Intermediate Value theorem for continuous functions.  Uniform continuity. Monotonic functions and continuity of the inverse function.   
3. DIFFERENTIABILITY OF FUNCTIONS DEFINED ON SUBSETS OF THE REAL LINE Linear approximation, the derivative of the sum, the product and the quotient of differentiable functions, the Chain Rule, extreme values, the Mean Value Theorem, and l'Hospitals Rule.     
4. THE RIEMANN INTEGRAL Riemann sums and upper and lower sums, existence of the integral using upper and lower sums (the Riemann Condition), integrability of monotone and continuous functions. Basic properties of the integral: linearity, comparison of integrals, the Triangle Inequality, and additivity on intervals. The Mean Value Theorem, the Fundamental Theorem of Calculus. Local integrability and the improper integral, improper integrals of nonnegative functions, the Comparison Test, absolute and conditional convergence.  Integration by parts and the change of variable.   
5. SEQUENCES AND SERIES OF FUNCTIONS Pointwise and uniform convergence of sequences of functions. Properties preserved by uniform convergence: continuity, differentiability, integrability.  Pointwise and uniform convergence of series of functions.   

Study material

Type Name Author ISBN URL Additional information Examination material
Book   Introduction to real analysis (Edition 2.04)   William Trench       Chapters 1-4   No   
Lecture slides   Mathematical Analysis   Janne Kauhanen       The lecture slides are in Moodle   No   
Summary of lectures   Matemaattinen analyysi   Janne Kauhanen       Ladattavissa Moodlesta   No   

Prerequisites

Course Mandatory/Advisable Description
MAT-01460 Matematiikka 4 Mandatory   1
MAT-01466 Mathematics 4 Mandatory   1

1 . Either Matematiikka 1-4 or Mathematics 1-4

Additional information about prerequisites
Alternatively Engineering mathematics (18-19 ECTS credits) with final grades 4-5.



Correspondence of content

Course Corresponds course  Description 
MAT-60206 Mathematical Analysis, 5 cr MAT-43650 Mathematical Analysis, 6 cr  
MAT-60206 Mathematical Analysis, 5 cr MAT-60200 Mathematical Analysis, 5 cr  

Updated by: Kauhanen Janne, 23.05.2017