Ukrainian Folk Tales

Posted on February 15, 2022 by The Mitr

In this post, we will see the book Ukrainian Folk Tales.

About the book

This book is a collection of various folk tales from Ukraine. The folk tales have many magical object and animals. The book is beautifully illustrated.

The book was translated by Anatole Bilenko and edited by Olga Shartse. The book was illustrated and designed by Roman Adamovich. The book was published in 1974 by Dnipro Publishers.

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Contents

PAN KOTSKY THE PUSS-0-CAT 7
FOXY-LOXY AND PALSY-WOLFIE 10
THE GOAT AND THE RAM 16
KOLOBOK THE JOHNNYCAKE 18
KOTHIROSHKO ROLLIPEA OH 32
THE WHEAT-EAR 42
THE MAGIC EGG 44
ILYA MUROMETS AND NIGHTINGALE THE ROBBER 55
THE LITTLE SHEPHERD 63
BORIS SON O’THREE 66
THE GOLEEN SLIPPER 75
THE POOR MAN AND THE RAVEN CZAR 81
THE POOR MAN AND HIS SONS 88
THE POOR LAD AND oan MERCHANT MARKO 94
DANILO WHO HAD NO LUCK 100
A TALE ABOUT THE LITTLE LINDEN TREE AND THE GREEDY OLD WOMAN 108
A TALE ABOUT THE STOLEN POSTOLI AND THE BOILED EGGS 110
MISERY 114
THE FARM 117

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Dialectics In Modern Physics – Omelyanovsky

Posted on February 14, 2022 by The Mitr

In this post, we will see the book Dialectics In Modern Physics by M. E. Omelyanovsky.

About the book

This monograph brings together into a unified whole the ideas and problems that have been considered in many of my published works (articles in Voprosy filosofii and papers in collective works devoted to the philosophical problems of science, published in Russian, for instance, in the series Dialectical Materialism and Modern Science. Most of the problems or the aspects of them that are treated here have been discussed in my earlier work, but the present book con­tains new material, additions, and more precise definitions, and also a number of new conclusions. I have been especially
interested to show that dialectics and its very important requirement of applying the all-round universal flexibility of concepts objectively is the logic of modern science.

The basic substance of the book (as its title says) is Marx­ist-Leninist dialectics in modern physics. Dialectics is not a formal mental construction but rather a living method of cognising nature and of searching for new truths in modern science, and in physics in particular, as far as this book is concerned.

The book was translated from Russian by H.C. Creighton and was designed by Vladimir Yeremin. The book was published in 1979 by Progress Publishers.

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Contents

PREFACE TO THE ENGLISH EDITION 5
PREFACE TO THE RUSSIAN EDITION 6

Chapter I. DIALECTICAL MATERIALISM IN MODERN PHYSICS 9

Chapter II. THE PROBLEM OF OBJECTIVE REALITY IN QUANTUM THEORY 27

1. The Methodological Significance of the Idea of Objective Reality in Physics 27
2. Observation, Complementarity, and Dialectics 39
3. The Philosophical Evolution of the Copenhagen School 49
4. Physical Reality 63

Chapter III. CAN WE FORM MENTAL PICTURES OF THE CONCEPTS AND THEORIES OF MODERN PHYSICS 78

Chapter IV. THE PRINCIPLE OF OBSERVABILITY IN MODERN PHYSICS 95

1. Formulation of the Question. The Significance or Meaning of ‘Observability 95
2. What Is an Observable (or a Non-observable)? 100
3. The Heuristic Role of the Observability Principle 107

Chapter V. DIALECTICAL CONTRADICTORINESS IN MODERN PHYSICS 119

1. Introductory Remarks 119
2. The Theory of Relativity and Dialectical Contradiction 123
3. Dialectical Contradiction and Quantum Theory 130

Chapter VI. DETERMINISM IN QUANTUM THEORY 142

1. The Objective Reality and Determinacy of Phenomena 142
2. On the Relationship Between Determinism and the Principle of Causality in Physics 148
3. Statistical Laws and Determinism 157
4. Statistical Laws, Determinism, and the Uncertainty Principle 163
5. The Concepts of ‘Actuality and Possibility in Classical Physics 171
6. The Concepts of Reality and Possibility in Quantum Physics 179
7. A Contribution to the Problem of Causality in Non-local Quantum Field Theory 189

Chapter VII. THE PROBLEM OF THE ELEMENTARY AND THE COMPLEX IN QUANTUM PHYSICS 197

4. On the Concepts of the Simple and the Complex in Philosophy and Physics 197
2. Classical Science on the Elementary and the Complex 204
3. The Problem of Simplicity in Microscopic Physics 209
4. The Concept of the Elementary and Structure in the Physics or Elementary Particles 215
5. The Elementary Particle of Matter and the Universe 222

Chapter VIII. QUANTUM PHYSICS AND THE TRANSFORMABILITY OF FUNDAMENTAL PARTICLES. THE ABSOLUTE AND THE RELATIVE 231

1. The Transformability of Elementary Particles 231
2. On the Absolute and the Relative in the Modern Physics 248

Chapter IX. PHILOSOPHICAL ASPECTS OF THE THEORY OF MENSURATION 256

1. Preliminary Remarks 256
2. The Concept of Measurement. Direct Measurement 259
3. Standards and Units 265
4. Sensory Perception and Abstract Thought in Mensuration 270
5. Laws of Nature and Measurement. Indirect Measurement 276
6. The Concept of Measurement in Quantum Mechanics 289
7. On the Interaction of the Atomic Objects, and Measuring Instruments 303

Chapter X. AXIOMATICS AND THE SEARCH FOR PRINCIPLES AND FUNDAMENTAL CONCEPTS IN PHYSICS 320

1. The Axiomatic Approach to Physical Research 320
2. Perun Aspects and Functions of the Axiomatic Method 335
3. On the Axiomatics of Contemporary Physical Theories 347

IN LIEU OF A CONCLUSION 370

 

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Infinite Series Ramifications (Pocket Mathematical Library Course 4) – Fichtenholz

Posted on February 13, 2022 by The Mitr

In this post, we will see the book Infinite Series Ramifications by G. M. Fichtenholz. This book is the Course 4 of  the Pocket Mathematical Library series.

About the book

The present volume of The Pocket Mathematical Library continues the study of infinite series begun in its companion volume Infinite Series: Rudiments, by the same author. Together the two volumes give a detailed treatment of the theory of numerical series, i.e., infinite series whose terms are numbers. The picture is then completed by a third volume, entitled Functional Series, which, as its name implies, is devoted to the study of infinite series whose terms are functions. The set of three volumes makes up a comprehensive treatise on all aspects of a key topic of pure and applied mathematics.
As in the companion volume, the problems appearing at the end of each section constitute an important part of the course, and should not be neglected by the serious student.

The book was translated from Russian by Richard Silverman and was published in 1970.

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Contents

Chapter 1. Operations on Series 1

l. Associativity of Convergent Series 1
2. Commutativity of Absolutely Convergent Series 5
3. Riemann’s Theorem 7
4. Multiplication of Series 13
5. Toeplitz’s Theorem 21
6. The Theorems of Mertens and Abel 26

Chapter 2. Iterated and Double Series 30

7. Iterated Series 30
8. Double Series 35
9. Examples 43
10. Power Series in Two Variables 54

Chapter 3. Computations Involving Series 61

11. General Remarks 61
12. Examples 63
13. Euler’s Transformation 70
14. The Transformations of Kummer and Markov 78

Chapter 4. Summation of Divergent Series 87

15. Introduction 87
16. The Method of Power Series 90
17. The Method of Arithmetic Means 98
18. Application of Generalized Summation to Multiplication of Series 110
19. Other Methods of Generalized Summation 113
20. The Methods of Borel and Euler 121

Index 129

 

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Signals and Circuits – Baskakov

Posted on February 12, 2022 by The Mitr

In this post, we will see the book Signals And Circuits by S. I. Baskakov.

About the book

The present book is a course on signals and circuits as it is taught in the USSR. This subject figures prominently among the fundamental disciplines essential to the expertise of communication engineers. Keeping pace with overall progress in science and technology and reflecting the current trends in component design and theory, this course combines and sets forth in a systematic way the most important principles in the field of communications.
In his work on the text, the author has been guided by the idea that material should be specifically tailored to the teaching practice at college. This approach has governed the selection of material and the degree of detail in its presentation: its pages contain what, as the author believes, the student can fully assimilate during the time allotted. Specific circuit types, their study and comparative analysis-all this belongs to the specialized subjects in communication engineering.
This text includes a wide variety of material and a wealth of concepts and techniques which will come the student’s way for the first time. Ample space is devoted to mathematical tools of study. To link theory closer to practice, the chapters contain a great number of examples and problems giving the student deeper insight into the techniques of engineering analysis.

The book was translated from Russian by V. Kuznetsov was published in 1986 by Mir Publishers.

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Contents

 

Preface

Introduction

Part One. Signals 15

Chapter 1 Elements of the General Theory of Signals 15

Chapter 2 Spectral Representations of Signals 42

Chapter 3 Power Spectra of Signals. Principles of Correlation Analysis 78

Chapter 4 Modulated Signals 103

Chapter 5 Band-Limited Signals 133

Chapter 6 An Outline of the Theory of Random Signals 162

Chapter 7 The Correlation Theory of Random Processes 189

Part Two. Circuits 219

Chapter 8 Response of Linear Stationary Systems to Deterministic Signals 219

Chapter 9 Response of Frequency-Selective Systems to Deterministic Signals 259

Chapter 10 Response of Linear Stationary Networks to Random Signals 290

Chapter 11 Signal Transformations in Nonlinear Circuits 313

Chapter 12 Signal Transformations in Linear Parametric Circuits 345

Chapter 13 A Basic Theory of Linear Circuit Synthesis 380

Chapter 14 Active Networks with Feedback. Self-Excited Oscillatory Systems 409

Chapter 15 Discrete Signals. Principles of Digital Filtering 448

Chapter 16 Optimum Linear Signal Filtering 487

Bibliography 510
Index 512

 

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Mathematical Games And Pastimes (Popular Lectures In Mathematics Vol 10)- Domoryad

Posted on February 11, 2022 by The Mitr

In this post, we will see the book Mathematical Games And Pastimes (Popular Lectures In Mathematics Vol 10) by A. P. Domoryad.

About the book

The greater part of this book is devoted to classical games. The first few chapters deal with various systems of notation and with certain topics in the theory of numbers, the knowledge of which is necessary for the understanding of the theory of various mathematical games. But for some readers these chapters might be interesting in themselves. The theory of some isolated games is presented fairly fully here; in other cases only results are given; and reference is made to sources, where proof of these results can be found. Side by side with classical pastimes, the book devotes much space also to “contemporary” pastimes quick reckoning, re-cutting of figures, construction of curves, and models of polyhedra. Deserving particular attention are the problems which admit a practically inexhaustible or even infinite number of solutions (“Construction of parquets”, “Construction of pleasing patterns”, etc.).
Here, everybody, by applying persistence and inventiveness, can attempt to obtain interesting results.
Whereas such classical pastimes as, for example, constructing “magic squares” may be enjoyed by a comparatively narrow section of people, the cutting out of, say, symmetrical figures in paper, the construction of pleasing patterns, searching for numerical curiosities, by not requiring any mathematical preparation, might give pleasure to both amateur and professional mathematicians. The same can be said about pastimes requiring knowledge confined to that obtained in the 8th to 10th classes of the secondary school (construction of parquets, of interesting curves and borders, etc.).
In group activities it is possible to arrange competitions in making up original parquets, in the construction of curves and borders, in obtaining attractive symmetrical figures cut out of paper, and so on. Each participant in such competitions can dazzle with his inventiveness, accuracy of execution, or artistry of colouring the figures obtained. Such collective activity can be rounded off by compiling an album or by organizing an exhibition of the best items. Many pastimes and even single problems may suggest to the amateur mathematician themes for independent investigations (the use of knight’s moves instead of the “short” moves of the fook in the “game of 15”, the search for interesting identities — see § 37 —, the generalization of the problem about tourists — problem No. 13 in §37 —and so on). On the whole, this book caters for readers with mathematical knowledge within the limits of the 9th and 10th classes of the secondary school, even though the greatest part of the material is accessible to pupils of the 8th class, and some topics — even to school- children of the 5th and 6th classes. Many chapters can be used by teachers of mathematics for extracurricular activities.
Various categories of readers can use the book in various ways: persons not particularly fond of mathematics can become acquainted with curious properties of numbers or figures, without going into the fundamentals of the games and pastimes, and taking for granted single propositions; amateur mathematicians are advised to study certain parts of the book with pencil and paper, solving the problems given and answering the questions posed. § 38 gives answers to the problems to be found in the text, questions and hints towards their solution and also proofs of certain of the theorems mentioned in the text. References to the appropriate section of § 38 are given in small figures between ordinary brackets.
References to books in which the reader may find a more detailed discussion of the topics touched upon are given by a number enclosed in square brackets. This number refers to the corresponding entry in the bibliography at the end of the book.

The book was translated from Russian by Halina Moss and was published in 1963.

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Contents

  1. Various systems of Notations 1
  2. Some facts from the Theory of Numbers 10
  3. Congruences 15
  4. Continued Fractions and Indeterminate Equations 20
  5. Pythagorean and Heronic Triples 31
  6. Arithmetical Pastimes 33
  7. Numerical Tricks 37
  8. Rapid Calculations 45
  9. Numerical Giants 57
  10. Games with Piles of Objects 61
  11. Meleda 71
  12. Lucas’ Game 75
  13. Solitaire 77
  14. The “Game of Fifteen” and Similar Games 79
  15. Problems on determining the Number of ways of reaching a goal 86
  16. Magic Squares 97
  17. Euler Squares 105
  18. Pastimes with Dominoes 107
  19. Problems Connected with Chessboard 109
  20. Making up Timetables 120
  21. The “Problem of Josephus Flavius” and similar ones 124
  22. Pastimes connected with Objects Changing Places 127
  23. Simplest methods of Constructing Pleasing Patterns 136
  24. Regular Polygons from Rhombi 142
  25. The Construction of Figures from Given Parts 145
  26. The Construction of Parquets 149
  27. Re-cutting of Figures 158
  28. The Construction of Curves 166
  29. Mathematical Borders 188
  30. Models of Polyhedra 193
  31. Pastimes with a sheet and strips of paper 202
  32. The Four Colour Problem 207
  33. Drawing Figures at one stroke of the pencil 211
  34. Hamilton’s Game 215
  35. Arranging Points on a Plane and in Space 219
  36. Problems on a Logical Nature 222
  37. Rag-Bag 232
  38. Notes and Answers to Problems 246

Bibliography 297

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Great Grandmother Universe – Krivin

Posted on February 10, 2022 by The Mitr

In this post, we will see the book Great Grandmother Universe by Felix Krivin.

About the book

A little book for children with beautiful illustrations describing several fascinating aspects of astronomy and the universe which we live in.

The book was translated from Russian by Eugene Yankovsky and illustrated by M. Romadin. The book was published in 1982 by Malysh Publishers.

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Contents

What do we know about Great Grandmother?

What is Our Galaxy?

Why Cannot we walk to the place where Earth and Sky Meet?

Why does not the Sun drown in the Sea?

Can one live on the Sun?

Why does the moon shine at night?

How many stars are there in the sky?

Why are the stars so small?

Where do the stars go in the day?

Can a satellite become a planet?

Who Walks along the Mikly Way?

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Space Research Apparatus – Khodarev et al

Posted on February 9, 2022 by The Mitr

In this post, we will see the book Space Research Apparatus by Yu. K. Khodarev; L. I. Shatrovskiy; V. V. Andreyanov; B. N. Rodionov; P. Ye. El’yasberg, V. S. Etkin.

About the book

The articles of this collection encompass a broad range of questions associated with theoretical analysis and design of equipment used in conducting space ex­periments. The Information on theoretical analysis of the possible apparatus solutions used to generate information streams aboard spacecraft is covered most completely. The articles on coding methods reflect the urgent necessity for more sophisticated onboard processing of the information obtained. The problems of spacecraft antenna testing, radiometric equipment, and so on are examined.
The volume will be of interest to specialists connected with the design and construction of radio-electronic and radiophysical space equipment.

The book was translated from Russian by SCITRAN under the NASA Technical Translation Programme.

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Contents

Y. M. Shtar’kov and V. F. Babkin
Series-Length Coding under a Pricri Uncertainty 1

A. B. Kryukov
Coding cf Discrete Monotonic Functions 14

Yu. M. Shtartkov and V. F. Babkin
Simple Method of Jumbering Binary Sequences with Given Number of Units 24

 

A. V. Kantor, S. M. Perevertkin and T. 5S. Sheherbakova
Multipurpose Information Collection and Processing Systems 34

 

A. V. Kanten, T. A. Tolmadzheva
Associative Compressed Information Output Stream Formation by the Statistical Trial Method 43

A. V. Kantor, S. M. Perevertkin and T. S. Shcherbakova
Analytic Study of Output Stream Formation Process in Multipurpose Information Compression Systems 57

L. G. Sapogin and V. G. Sapogin
Dispersion Space Radio Links 68

A. P. Alekseyev, B. A. Prigoda and L. I. Skotnikov
Spacecraft Antenna System Design 93

B. A. Prigoda
Low-Silhouette Spacecraft Antenna Systems 108

A, Ye. Andriyevskiy, A. G. Gorshkov, V. V. Danilov,
Vv. K. Konnikova, A. S. Lobarev, Vv. G. Mirovskly,
V. V. Nikitin, V. I. Portman, Ye. A. Spangenberg,
I. A. Strukov, N. Z. Shvarts and V. S. Yetkin

High-Sensitivity 3.5-cm Modulation-Type Radiometer 105

 

Yu. A. Nemlikher, I. A. Strukov and L. H. Yudina

If Amplifier Liniting F-.1uency Selection in Super-heterodyne MM- and CM-Band Radiometer 132

V. F. Kolomeytsev, Yu. Yu. Kulikov, A. M. Kupriyanov, I. A. Strakov, L. I. Fedoseyev, Yu. B. Khapin and Vv. S. Yetkin
Study of Schotti:ky Barrier Diode Frequency Converter in the Short Millimeter Wavelength Band 142

Ya. E. Veyber
Influence of Phase Shifter on Frequency Divider Characteristics 148

Ye. A. Vlasov
Comb-Line Bandpass Filters 167

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How to Construct Graphs? – Shilov and Simplest Maxima Minima Problems – Natanson

Posted on February 8, 2022 by The Mitr

In this post, we will see a double book How To Construct Graphs by G. E. Shilov And Simplest Maxima And Minima Problems by I. P. Natanson. These two books are part of the Topics in Mathematics series.

About the books

The first part of this booklet. How to Construct Graphs by G. E. Shilov, presents simple methods of plotting graphs, first “by points” and then “by operations.”The latter method offers a means of constructing graphs of complicated functions by considering the function as a succession of operations performed on an initial quantity.
The second part, Simplest Maxima and Minima Problems by I. P. Natanson, shows how to solve certain maxima and minima problems by algebraic methods. This material is excellent prepa­ration for calculus, in which such problems are treated more gen­erally. (In order to relate this part to the preceding one, several paragraphs and Fig. A and Fig. B, not present in the Russian edition, have been added.)
This booklet can be read by anyone who has studied intermedi­ate algebra.

How to Construct Graphs  was translated from Russian by Jerome Kristian and Daniel A. Levine. Simplest Maxima and Minima Problems  was translated from Russian by C. Clark Kissinger and Robert B. Brown. The book was published in 1963.

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Contents

HOW TO CONSTRUCT GRAPHS by G. E. Shilov 3

CHAPTER l. Graphs “by Points” 3

1. Introduction 3
2. Coordinate system 3
3. Graph of an equation 4

CHAPTER 2. Graphs “by Operations” 7

4. Graphs of first-degree equations 7
5. Graphs of second-degree equations 8
6. Graphs by multiplication 11
7. Graphs by division 13
8. Summary 18

Exercises and Solutions 20

SIMPLEST MAXIMA AND MINIMA PROBLEMS by I. P. Natanson

Introduction 25

CHAPTER l. The Fundamental Theorem on Quadratic Trinomials 26

1. Parabolas; minimum values 26
2. Quadratic trinomials 27
3. Maximum values 29
4. The Fundamental Theorem 30

CHAPTER 2. Applications 33

5. Applications of the Fundamental Theorem 7 33
6. Applications of Problem 1 38

CHAPTER 3. Further Theorems and Applications 40

7. Theorems derived from Problem 1 40
8. Generalization of Theorem l of section 42
9. Arithmetical applications 47
10. Geometrical applications 48
11. Summary 53

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Number Systems – Fomin

Posted on February 7, 2022 by The Mitr

In this post, we will see the book Number Systems by S. V. Fomin. This books is a part of the Popular Lectures in Mathematics series.

About the book

The most common language of numbers, the decimal system, has not always been used universally. From a purely mathematical point of view, the decimal system has no inherent advantages over other possible systems; its popularity is due to historical and biological, not mathematical factors. In this book, S. V. Fomin discusses the origin, properties, and applications of various number systems, including the decimal, the binary, and the ternary. His presentation offers the student an introduction to mathematical abstraction and then, through its examples, shows him the abstraction at work.

The book was translated from Russian by Joan. W. Teller and Thomas P. Branson. The book was published in 1974.

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Contents

Preface vii

1. Round and Unrounded Numbers 1
2. The Origin of the Decimal Number System 3
3. Other Number Systems and Their Origins 4
4. Positional and Nonpositional Systems 6
5. Arithmetic Operations in Various Number Systems 7
6. Translating Numbers from One System to Another 9
7. Tests for Divisibility 13
8. The Binary System 17
9. The Game of Nim 20
10. The Binary Code and Telegraphy 25
11. The Binary System—A Guardian of Secrets 26
12. A Few Words about Computers 28
13. Why Electronic Machines “Prefer” the Binary System 29
14. One Remarkable Property of the Ternary System 31
15. On Infinite Number Representations 34

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Inversions (Popular Lectures In Mathematics) – Bakel’man

Posted on February 6, 2022 by The Mitr

In this post, we will see the book Inversions by I. Ya. Bakel’man. This book is Volume of Popular Lectures In Mathematics series.

About the book

In this book, I. Ya. Bakel’man introduces inversion trans­formations in the Euclidean plane and discusses the interrelationships among more general mathematical concepts. The author begins by defining and giving examples of the concept of a transformation in the Euclidean plane, and then explains the “ point of infinity” and the “ stereographic projection” of the sphere onto the plane. With this preparation, the student is capable of applying the theory of inversions to classical construction problems in the plane.

The author also discusses the theory of pencils of circles, and he uses the acquired techniques in a proof of Ptolemy’s theorem. In the final chapter, the idea of a group is introduced with applications of group theory to geometry. The author demonstrates the group-theoretic basis for the distinction between Euclidean and Lobachevskian geometry.

The book was translated from Russian by Joan A. Teller and Susan Williams and was published in 1974.

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Contents

Preface vii

1. Inversions and Pencils of Circles 1

1.1. Elementary Transformations of the Plane 1
1.2. Stereographic Projection: The Point at Infinity of a Plane 6
1.3. Inversions 8
1.4. Properties of Inversions 11
1.5. The Power of a Point with Respect to a Circle: The Radical Axis of Two Circles 19
1.6. Application of Inversions to the Solution of Construction Problems 24
1.7. Pencils of Circles 32
1.8. Structure of an Elliptical Pencil 40
1.9. Structure of a Parabolic Pencil 41
1.10. Structure of a Hyperbolic Pencil 42
1.11. Ptolemy’s Theorem 45

2. Complex Numbers and Inversions 48

2.1. Geometric Representation of Complex Numbers and Operations on Them 48
2.2. Linear Functions of a Complex Variable and Elementary Transformations of the Plane 52
2.3. Linear Fractional Functions of a Complex Variable and Related Pointwise Transformations of the Plane 54

3. Groups of Transformations: Euclidean and Lobachevskian Geometries 58

3.1. The Geometry of a Group of Transformations 58
3.2. Euclidean Geometry 64
3.3. Lobachevskian Geometry 68

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