eBook - ePub
Geometry and Its Applications
Walter J. Meyer
This is a test
Buch teilen
- 512 Seiten
- English
- ePUB (handyfreundlich)
- Über iOS und Android verfügbar
eBook - ePub
Geometry and Its Applications
Walter J. Meyer
Angaben zum Buch
Buchvorschau
Inhaltsverzeichnis
Quellenangaben
Über dieses Buch
This unique textbook combines traditional geometry presents a contemporary approach that is grounded in real-world applications. It balances the deductive approach with discovery learning, introduces axiomatic, Euclidean and non-Euclidean, and transformational geometry. The text integrates applications and examples throughout. The Third Edition offers many updates, including expaning on historical notes, Geometry and Its Applications is a significant text for any college or university that focuses on geometry's usefulness in other disciplines. It is especially appropriate for engineering and science majors, as well as future mathematics teachers.
- The Third Edition streamlines the treatment from the previous two editions
- Treatment of axiomatic geometry has been expanded
- Nearly 300 applications from all fields are included
- An emphasis on computer science-related applications appeals to student interest
- Many new excercises keep the presentation fresh
Häufig gestellte Fragen
Wie kann ich mein Abo kündigen?
Gehe einfach zum Kontobereich in den Einstellungen und klicke auf „Abo kündigen“ – ganz einfach. Nachdem du gekündigt hast, bleibt deine Mitgliedschaft für den verbleibenden Abozeitraum, den du bereits bezahlt hast, aktiv. Mehr Informationen hier.
(Wie) Kann ich Bücher herunterladen?
Derzeit stehen all unsere auf Mobilgeräte reagierenden ePub-Bücher zum Download über die App zur Verfügung. Die meisten unserer PDFs stehen ebenfalls zum Download bereit; wir arbeiten daran, auch die übrigen PDFs zum Download anzubieten, bei denen dies aktuell noch nicht möglich ist. Weitere Informationen hier.
Welcher Unterschied besteht bei den Preisen zwischen den Aboplänen?
Mit beiden Aboplänen erhältst du vollen Zugang zur Bibliothek und allen Funktionen von Perlego. Die einzigen Unterschiede bestehen im Preis und dem Abozeitraum: Mit dem Jahresabo sparst du auf 12 Monate gerechnet im Vergleich zum Monatsabo rund 30 %.
Was ist Perlego?
Wir sind ein Online-Abodienst für Lehrbücher, bei dem du für weniger als den Preis eines einzelnen Buches pro Monat Zugang zu einer ganzen Online-Bibliothek erhältst. Mit über 1 Million Büchern zu über 1.000 verschiedenen Themen haben wir bestimmt alles, was du brauchst! Weitere Informationen hier.
Unterstützt Perlego Text-zu-Sprache?
Achte auf das Symbol zum Vorlesen in deinem nächsten Buch, um zu sehen, ob du es dir auch anhören kannst. Bei diesem Tool wird dir Text laut vorgelesen, wobei der Text beim Vorlesen auch grafisch hervorgehoben wird. Du kannst das Vorlesen jederzeit anhalten, beschleunigen und verlangsamen. Weitere Informationen hier.
Ist Geometry and Its Applications als Online-PDF/ePub verfügbar?
Ja, du hast Zugang zu Geometry and Its Applications von Walter J. Meyer im PDF- und/oder ePub-Format sowie zu anderen beliebten Büchern aus Matemáticas & Matemáticas general. Aus unserem Katalog stehen dir über 1 Million Bücher zur Verfügung.
Information
1 The Axiomatic Method in Geometry
DOI: 10.1201/9780429198328-1
We human beings are at home with the physical world—our senses guide our movements and help us estimate sizes. But from earliest times, we have wanted to know things about our physical world that our senses and measuring instruments could not tell us—for example, what is the circumference of the earth? For this, we needed the kinds of geometry we will explore in this book: axiomatic geometry. This means that we start with assumptions people are willing to accept as true (perhaps “for the sake of argument”) and use logical arguments based on these agreed-upon principles, instead of our senses. The process is called deduction and the starting principles are called axioms.
Geometry, that of Euclid in particular (which we start with), has paid dividends for over 2,000 years, but there are still frontiers to explore. For example, the development of robots has led to the desire to mimic whatever mysterious processes our human minds do, through geometry, to move about in the world safely and effectively.
Prerequisites:
high school mathematics,
the notation of set theory (in just a few places)
Section 1. Axioms for Euclidean Geometry
In this section, we describe the basic principles from which we drive everything else in our study of Euclidean geometry. These basic principles are called axioms. We then carry out rigorous proofs of the first few deductions from this axiom set.
Our axiom set is a descendant of the five axioms provided by Euclid, but there are some differences. There are two main reasons why we do not use Euclid's axioms as he originally gave them:
- Euclid phrases his axioms in a way which is hard for the modern reader to appreciate.
- It has been necessary to add axioms to Euclid's set to be able to give rigorous proofs of many Euclidean theorems.
A number of individuals, and at least one committee, have taken turns in improving Euclid's axiom set: notably, David Hilbert in 1899, G. D. Birkhoff in 1932, and the School Mathematics Study Group (SMSG) during the 1960s. Even though these axiom sets differ from one another—and from Euclid's—they all lead to the well-known theorems in Euclid's Elements. Consequently, we say that they are all axiom sets for Euclidean geometry. The axioms we list below for our use are a minor rewording of the SMSG axiom set.
As we embark on our study of axiomatic Euclidean geometry, you will be asked to consider proofs of some statements you may have learned before. To enter the spirit of our study, you must put aside what you have learned before or find obvious. In earlier sections, we have relied on some geometry you have previously learned but in this section, we strive to construct proofs only from the axioms we are about to list, and any theorems we have previously proved from those axioms. Keep in mind that our objective in our axiomatic discussion of Euclidean geometry is not to learn facts about geometry, but to learn about the logical structure of geometry.
Axioms About Points on Lines
Axiom 1: The Point-Line Incidence Axiom.
Given any two different points, there is exactly one line which contains them.
We denote the line connecting A and B by . Our first theorem about lines uses proof by contradiction or indirect proof. It is based on the idea that the truths of Euclidean geometry do not contradict one another; if you reason correctly on true statements, then you can never deduce a statement that contradicts another which is known to be true. If you do find a contradiction, then one of the statements you have been reasoning from must be false. In our proof, we will make a supposition and show that it leads t...