Mathematical Analysis 1
Data is displayed for academic year: 2023./2024.
Exercises
Course Description
elements of analysis, functions, limit of sequences, limit of functions, differential calculus of single variable functions, applications of differential calculus, integral calculus of single variable functions, applications of integral calculus, introduction to discrete mathematics and combinatorics
Study Programmes
University undergraduate
[FER3-EN] Computing - study
(1. semester)
[FER3-EN] Electrical Engineering and Information Technology - study
(1. semester)
Learning Outcomes
- define and explain basic notions of discrete mathematics
- apply basic counting methods in combinatorics
- explain and relate fundamental notions and results of differential calculus
- demonstrate and apply methods and techniques of differential calculus
- describe and relate fundamental notions and results of integral calculus
- demonstrate and apply techniques of integral calculus
- demonstrate ability for mathematical modeling and problem solving
- use critical thinking
- demonstrate ability for mathematical expression and logic thinking
- use methods of mathematical analysis in engineering
Forms of Teaching
Lectures
Lectures are held in two cycles, 6 hours per week.
ExercisesExcercises are held two hours per week.
Partial e-learningTeaching materials are accessible on course webpage.
Grading Method
Continuous Assessment | Exam | |||||
---|---|---|---|---|---|---|
Type | Threshold | Percent of Grade | Threshold | Percent of Grade | ||
Class participation | 0 % | 5 % | 0 % | 0 % | ||
Mid Term Exam: Written | 0 % | 50 % | 0 % | |||
Final Exam: Written | 0 % | 50 % | ||||
Exam: Written | 0 % | 100 % |
Week by Week Schedule
- Integers and rational numbers; Set of real numbers, Order in set of real numbers, absolute value, inequalities, infimum and supremum, Complex numbers, arithmetic operations, trigonometric form, powers and roots of complex numbers, Sets; Subsets; Set algebra; Direct product of sets, Integers; Mathematical induction
- Real functions; Injection, surjection, bijection; Composition; Inverse function, Bijective functions; Equipotent sets; Cardinal number, countable and uncountable sets, Binary relations; Equivalence relation; Quotient set
- Elementary functions, properties and basic relations, graphs, Graph transformations, translation, symmetry, rotation, Parametric functions; Polar equations of the plane curves
- Sequences, subsequences, accumulation points; Limit, convergence of a sequence, Monotone sequences, some notable limits
- Limit of a function, properties and operations with limits, One-sided limits; Limits of indeterminate forms, Continuity of functions; Properties of function on interval
- Derivative of a function, geometrical and physical interpretation, differentiation rules, Derivative of composition and inverse function; Higher order derivatives, Differentiation of elementary functions
- Tangent and normal lines to the graph of function; Differentiation of implicit and parametric functions, Basic theorems of differential calculus, Lagrange mean value theorem, Taylor's theorem, Taylor's polynomial, L'Hospital's rule; Limits of indeterminante forms
- Midterm exam
- Increasing and decreasing functions, Convexity and concavity of a function; Finding extrema of a function, necessary and sufficient conditions
- Asymptotes; Qualitative graph of a function, Indefinite integral, Methods of integration, substitution, integration by parts
- Integration of rational functions, Integration of trigonometric and hyperbolic functions, Integration of irrational functions
- Primitive function, Area under a curve, definite integral, Newton-Leibniz formula. Improper integrals
- Area of planar sets, Arc length of curves, Volume of solid of revolution, Area of sets and length of curves in polar coordinates, Surface of solid of revolution, Application of integrals in physics
- Permutations, variations and combinations (without or with repetitions), Binomial and multinomial theorem; Inclusion-Exclusion principle, Pigeonhole principle, Generating functions; Operations with generating functions; Applications in enumerative combinatorics
- Final exam
Prerequisites for
Literature
(.), P. Javor, Matematička analiza 1, Element, 1999.,
(.), A. Aglić Aljinović i ostali, Matematika 1, Element, 2015.,
(.), J. Stewart, Single Variable Calculus, 8th edition, Cengage Learning, Boston, USA, 2016.,
(.), M. Pašić, Matematička analiza 1, Merkur ABD, 2004.,
(.), B.P. Demidovič, Zadaci i riješeni primjeri iz matematičke analize za tehničke fakultete, Danjar, Zagreb, 1995.,
(.), B.E. Blank, S.G. Krantz, Single Variable Calculus, John Wiley and Sons, 2011.,
For students
General
ID 209623
Winter semester
8 ECTS
L1 English Level
L2 e-Learning
90 Lectures
0 Seminar
30 Exercises
0 Laboratory exercises
0 Project laboratory
0 Physical education excercises
Grading System
86 Excellent
72 Very Good
58 Good
50 Sufficient