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Elementary Transition to Abstract Mathematics

Fresno-Calleja, Paloma Wilson, Janet M.
Innbundet / 2019 / Engelsk

Produktdetaljer

ISBN
9780367336936
Publisert
2019-10-28
Utgiver
Vendor
CRC Press
Vekt
594 gr
Høyde
234 mm
Bredde
156 mm
AldersnivĂĽ
U, 05
SprĂĽk
Product language
Engelsk
Format
Product format
Innbundet
Antall sider
292

Redaktør
Fresno-Calleja, Paloma
Wilson, Janet M.

Biographical note

Gove Effinger received his Ph.D. in Mathematics from the University of Massachusetts (Amherst) in 1981 and subsequently taught at Bates College for 5 years and then Skidmore College for 29 years. He is the author of two books: Additive Number Theory of Polynomials over a Finite Field (with David R. Hayes), and Common-Sense BASIC: Structured Programming with Microsoft QuickBASIC (with Alice M. Dean), as well as numerous research papers. His research focus has primarily been concerned with the similarities of the ring of polynomials over a finite field to the ring of ordinary integers.

Gary L. Mullen is Professor of Mathematics at the Pennsylvania State University, University Park, PA. He has taught both undergraduate and graduate courses there for over 40 years. In addition, he has written more than 150 research papers and five books, including both graduate as well as undergraduate textbooks. He also served as department head for seven years and has served as an editor on numerous editorial boards, including having served as Editor-in-Chief of the journal Finite Fields and Their Applications since its founding in 1995.

Elementary Transition to Abstract Mathematics

Fresno-Calleja, Paloma Wilson, Janet M.
Innbundet / 2019 / Engelsk
Fresno-Calleja, Paloma Wilson, Janet M.
Innbundet / 2019 / Engelsk
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An Elementary Transition to Abstract Mathematics will help students move from introductory courses to those where rigor and proof play a much greater role. The text is organized into five basic parts: the first looks back on selected topics from pre-calculus and calculus, treating them more rigorously, and it covers various proof techniques; the second part covers induction, sets, functions, cardinality, complex numbers, permutations, and matrices; the third part introduces basic number theory including applications to cryptography; the fourth part introduces key objects from abstract algebra; and the final part focuses on polynomials.Features: The material is presented in many short chapters, so that one concept at a time can be absorbed by the student. Two "looking back" chapters at the outset (pre-calculus and calculus) are designed to start the student’s transition by working with familiar concepts. Many examples of every concept are given to make the material as concrete as possible and to emphasize the importance of searching for patterns. A conversational writing style is employed throughout in an effort to encourage active learning on the part of the student.
Les mer
This text is intended to help students move from introductory courses to those where rigor and proof play a much greater role. The emphasis is on precise definitions of mathematical objects and rigorous proofs of properties.
Les mer
A Look Back: Precalculus MathA Look Back: CalculusAbout Proofs and Proof StrategiesMathematical InductionThe Well-Ordering PrincipleSetsEquivalence RelationsFunctionsCardinality of SetsPermutationsComplex NumbersMatrices and Sets with Algebraic StructureDivisibility in Z and Number TheoryPrimes and Unique FactorizationCongruences and the Finite Sets ZnSolving CongruencesFermat’s TheoremDiffie-Hellman Key ExchangeEuler’s Formula and Euler’s TheoremRSA Cryptographic SystemGroups-Definition and ExamplesGroups-Basic PropertiesGroups-SubgroupsGroups-CosetsGroups-Lagrange’s TheoremRingsSubrings and IdealsIntegral DomainsFieldsVector SpacesVector Space PropertiesSubspaces of Vector SpacesPolynomialsPolynomials-Unique FactorizationPolynomials over the Rational, Real and Complex NumbersSuggested Solutions to Selected Examples and Exercises
Les mer

Relaterte produkter

An Elementary Transition to Abstract Mathematics will help students move from introductory courses to those where rigor and proof play a much greater role. The text is organized into five basic parts: the first looks back on selected topics from pre-calculus and calculus, treating them more rigorously, and it covers various proof techniques; the second part covers induction, sets, functions, cardinality, complex numbers, permutations, and matrices; the third part introduces basic number theory including applications to cryptography; the fourth part introduces key objects from abstract algebra; and the final part focuses on polynomials.Features: The material is presented in many short chapters, so that one concept at a time can be absorbed by the student. Two "looking back" chapters at the outset (pre-calculus and calculus) are designed to start the student’s transition by working with familiar concepts. Many examples of every concept are given to make the material as concrete as possible and to emphasize the importance of searching for patterns. A conversational writing style is employed throughout in an effort to encourage active learning on the part of the student.
Les mer
This text is intended to help students move from introductory courses to those where rigor and proof play a much greater role. The emphasis is on precise definitions of mathematical objects and rigorous proofs of properties.
Les mer
A Look Back: Precalculus MathA Look Back: CalculusAbout Proofs and Proof StrategiesMathematical InductionThe Well-Ordering PrincipleSetsEquivalence RelationsFunctionsCardinality of SetsPermutationsComplex NumbersMatrices and Sets with Algebraic StructureDivisibility in Z and Number TheoryPrimes and Unique FactorizationCongruences and the Finite Sets ZnSolving CongruencesFermat’s TheoremDiffie-Hellman Key ExchangeEuler’s Formula and Euler’s TheoremRSA Cryptographic SystemGroups-Definition and ExamplesGroups-Basic PropertiesGroups-SubgroupsGroups-CosetsGroups-Lagrange’s TheoremRingsSubrings and IdealsIntegral DomainsFieldsVector SpacesVector Space PropertiesSubspaces of Vector SpacesPolynomialsPolynomials-Unique FactorizationPolynomials over the Rational, Real and Complex NumbersSuggested Solutions to Selected Examples and Exercises
Les mer

Produktdetaljer

ISBN
9780367336936
Publisert
2019-10-28
Utgiver
Vendor
CRC Press
Vekt
594 gr
Høyde
234 mm
Bredde
156 mm
AldersnivĂĽ
U, 05
SprĂĽk
Product language
Engelsk
Format
Product format
Innbundet
Antall sider
292

Redaktør
Fresno-Calleja, Paloma
Wilson, Janet M.

Biographical note

Gove Effinger received his Ph.D. in Mathematics from the University of Massachusetts (Amherst) in 1981 and subsequently taught at Bates College for 5 years and then Skidmore College for 29 years. He is the author of two books: Additive Number Theory of Polynomials over a Finite Field (with David R. Hayes), and Common-Sense BASIC: Structured Programming with Microsoft QuickBASIC (with Alice M. Dean), as well as numerous research papers. His research focus has primarily been concerned with the similarities of the ring of polynomials over a finite field to the ring of ordinary integers.

Gary L. Mullen is Professor of Mathematics at the Pennsylvania State University, University Park, PA. He has taught both undergraduate and graduate courses there for over 40 years. In addition, he has written more than 150 research papers and five books, including both graduate as well as undergraduate textbooks. He also served as department head for seven years and has served as an editor on numerous editorial boards, including having served as Editor-in-Chief of the journal Finite Fields and Their Applications since its founding in 1995.

Relaterte produkter