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E-book: Illustrative Guide to Multivariable and Vector Calculus

2.00/5 (1 ratings by Goodreads)
  • Format: EPUB+DRM
  • Pub. Date: 17-Feb-2020
  • Publisher: Springer Nature Switzerland AG
  • Language: eng
  • ISBN-13: 9783030334598
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Illustrative Guide to Multivariable and Vector CalculusLarger Image
  • Format: EPUB+DRM
  • Pub. Date: 17-Feb-2020
  • Publisher: Springer Nature Switzerland AG
  • Language: eng
  • ISBN-13: 9783030334598
Other books in subject:

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This textbook focuses on one of the most valuable skills in multivariable and vector calculus: visualization. With over one hundred carefully drawn color images, students who have long struggled picturing, for example, level sets or vector fields will find these abstract concepts rendered with clarity and ingenuity. This illustrative approach to the material covered in standard multivariable and vector calculus textbooks will serve as a much-needed and highly useful companion.





Emphasizing portability, this book is an ideal complement to other references in the area. It begins by exploring preliminary ideas such as vector algebra, sets, and coordinate systems, before moving into the core areas of multivariable differentiation and integration, and vector calculus. Sections on the chain rule for second derivatives, implicit functions, PDEs, and the method of least squares offer additional depth; ample illustrations are woven throughout. Mastery Checks engage students in material on the spot, while longer exercise sets at the end of each chapter reinforce techniques.







An Illustrative Guide to Multivariable and Vector Calculus will appeal to multivariable and vector calculus students and instructors around the world who seek an accessible, visual approach to this subject. Higher-level students, called upon to apply these concepts across science and engineering, will also find this a valuable and concise resource.

Reviews

The book is self-contained. It is suitable as a textbook for students having completed courses in single variable calculus and linear algebra. Alternatively, the book can be used as a reference text to complement the textbooks in advanced calculus, giving the students a different visual perspective. (Mihail Voicu, zbMATH 1441.26002, 2020)

1 Vectors and functions
1(48)
1.A Some vector algebra essentials
2(7)
1.B Introduction to sets
9(8)
1.C Real-valued functions
17(8)
1.D Coordinate systems
25(2)
1.E Drawing or visualizing surfaces in R3
27(11)
1.F Level sets
38(5)
1.G Supplementary problems
43(6)
2 Differentiation of multivariable functions
49(76)
2.A The derivative
49(4)
2.B Limits and continuity
53(9)
2.C Partial derivatives
62(5)
2.D Differentiability of ƒ: Rn → R
67(7)
2.E Directional derivatives and the gradient
74(6)
2.F Higher-order derivatives
80(4)
2.G Composite functions and the chain rule
84(17)
2.H Implicit functions
101(12)
2.I Taylor's formula and Taylor series
113(6)
2.J Supplementary problems
119(6)
3 Applications of the differential calculus
125(52)
3.A Extreme values of ƒ: Rn → R
125(8)
3.B Extreme points: The complete story
133(12)
3.C Differentials and error analysis
145(1)
3.D Method of least squares
146(6)
3.E Partial derivatives in equations: Partial differential equations
152(19)
3.F Supplementary problems
171(6)
4 Integration of multivariable functions
177(46)
4.A Multiple integrals
177(7)
4.B Iterated integration in R2
184(3)
4.C Integration over complex domains
187(6)
4.D Generalized (improper) integrals in R2
193(5)
4.E Change of variables in R2
198(6)
4.F Triple integrals
204(3)
4.G Iterated integration in R3
207(4)
4.H Change of variables in R3
211(2)
4.I n-tuple integrals
213(2)
4.J Epilogue: Some practical tips for evaluating integrals
215(2)
4.K Supplementary problems
217(6)
5 Vector calculus
223(78)
5.A Vector-valued functions
223(15)
5.B Vector fields
238(8)
5.C Line integrals
246(14)
5.D Surface integrals
260(13)
5.E Gauss's theorem
273(8)
5.F Green's and Stokes's theorems
281(12)
5.G Supplementary problems
293(8)
Glossary of symbols 301(4)
Bibliography 305(2)
Index 307
Stanley J. Miklavcic is a Professor of Mathematics at the University of South Australia. He was awarded a BSc Hons in Applied Mathematics and the University Medal by the University of New South Wales and holds a PhD from the Australian National University. His research interests include the application of mathematics and modelling in biology, physics and chemistry. A one-time recipient of a Queen Elizabeth Research Fellowship, Stanley has held academic positions in both Sweden and Australia and has published over 150 papers. Stanley is a Fellow of the Australian Mathematical Society and Member of both the Australasian Colloid and Interface Society and the Australian Society of Plant Scientists.
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