Textbook
Calculus: Multivariable, Enhanced eText, 7th EditionISBN: 9781119374206
April 2017, ©2017

For Instructors
For Students
Description
Calculus: Multivariable, 7e continues the effort to promote courses in which understanding and computation reinforce each other. The 7th Edition reflects the many voices of users at research universities, fouryear colleges, community colleges, and secdondary schools. This new edition has been streamlined to create a flexible approach to both theory and modeling. The program includes a variety of problems and examples from the physical, health, and biological sciences, engineering and economics; emphasizing the connection between calculus and other fields. Calculus: Multivariable, 7e will include Wiley's seamlessly integrated adaptive WileyPLUS ORION program, covering content from refresher Algebra and Trigonometry through MultiVariable Calculus. Calculus: Multivariable, 7e is the first adaptive calculus program in the market.
See More
Table of Contents
12. Functions of Several Variables 651
12.1 Functions of Two Variables 652
12.2 Graphs and Surfaces 660
12.3 Contour Diagrams 668
12.4 Linear Functions 682
12.5 Functions of Three Variables 689
12.6 Limits and Continuity 695
Review Problems Online
Projects Online
13. A Fundamental Tool: Vectors 701
13.1 Displacement Vectors 702
13.2 Vectors in General 710
13.3 The Dot Product 718
13.4 The Cross Product 728
Review Problems Online
Projects Online
14. Differentiating Functions of Several Variables 739
14.1 The Partial Derivative 740
14.2 Computing Partial Derivatives Algebraically 748
14.3 Local Linearity and the Differential 753
14.4 Gradients and Directional Derivatives in the Plane 762
14.5 Gradients and Directional Derivatives in Space 772
14.6 The Chain Rule 780
14.7 SecondOrder Partial Derivatives 790
14.8 Differentiability 799
Review Problems Online
Projects Online
15. Optimization: Local and Global Extreme 805
15.1 Critical Points: Local Extreme and Saddle Points 806
15.2 Optimization 815
15.3 Constrained Optimization: Lagrange Multipliers 825
Review Problems Online
Projects Online
16. Integrating Functions of Several Variables 839
16.1 The Definite Integral of a Function of Two Variables 840
16.2 Iterated Integrals 847
16.3 Triple Integrals 857
16.4 Double Integrals in Polar Coordinates 864
16.5 Integrals in Cylindrical and Spherical Coordinates 869
16.6 Applications of Integration to Probability 878
Review Problem Online
Projects Online
17. Parameterization and Vector Fields 885
17.1 Parameterized Curves 886
17.2 Motion, Velocity, and Acceleration 896
17.3 Vector Fields 905
17.4 The Flow of a Vector Field 913
Review Problems Online
Projects Online
18. Line Integrals 921
18.1 The Idea of a Line Integral 922
18.2 Computing Line Integrals Over Parameterized Curves 931
18.3 Gradient Fields and PathIndependent Fields 939
18.4 PathDependent Vector Fields and Green's Theorem 949
Review Problems Online
Projects Online
19. Flux Integrals and Divergence 961
19.1 The Idea of a Flux Integral 962
19.2 Flux Integrals for Graphs, Cylinders, and Spheres 973
19.3 The Divergence of a Vector Fields 982
19.4 The Divergence Theorem 991
Review Problems Online
Projects Online
20. The Curl and Stokes' Theorem 999
20.1 The Curl of a Vector Fields 1000
20.2 Stokes' Theorem 1008
20.3 The Three Fundamental Theorems 1015
Review Problems Online
Projects Online
21. Parameters, Coordinates, and Integrals 1021
21.1 Coordinates and Parameterized Surfaces 1022
21.2 Change of Corrdinates in a Multiple Integral 1033
21.3 Flux Integrals Over Parameterized Surfaces 1038
Review Problems Online
Projects Online
12.1 Functions of Two Variables 652
12.2 Graphs and Surfaces 660
12.3 Contour Diagrams 668
12.4 Linear Functions 682
12.5 Functions of Three Variables 689
12.6 Limits and Continuity 695
Review Problems Online
Projects Online
13. A Fundamental Tool: Vectors 701
13.1 Displacement Vectors 702
13.2 Vectors in General 710
13.3 The Dot Product 718
13.4 The Cross Product 728
Review Problems Online
Projects Online
14. Differentiating Functions of Several Variables 739
14.1 The Partial Derivative 740
14.2 Computing Partial Derivatives Algebraically 748
14.3 Local Linearity and the Differential 753
14.4 Gradients and Directional Derivatives in the Plane 762
14.5 Gradients and Directional Derivatives in Space 772
14.6 The Chain Rule 780
14.7 SecondOrder Partial Derivatives 790
14.8 Differentiability 799
Review Problems Online
Projects Online
15. Optimization: Local and Global Extreme 805
15.1 Critical Points: Local Extreme and Saddle Points 806
15.2 Optimization 815
15.3 Constrained Optimization: Lagrange Multipliers 825
Review Problems Online
Projects Online
16. Integrating Functions of Several Variables 839
16.1 The Definite Integral of a Function of Two Variables 840
16.2 Iterated Integrals 847
16.3 Triple Integrals 857
16.4 Double Integrals in Polar Coordinates 864
16.5 Integrals in Cylindrical and Spherical Coordinates 869
16.6 Applications of Integration to Probability 878
Review Problem Online
Projects Online
17. Parameterization and Vector Fields 885
17.1 Parameterized Curves 886
17.2 Motion, Velocity, and Acceleration 896
17.3 Vector Fields 905
17.4 The Flow of a Vector Field 913
Review Problems Online
Projects Online
18. Line Integrals 921
18.1 The Idea of a Line Integral 922
18.2 Computing Line Integrals Over Parameterized Curves 931
18.3 Gradient Fields and PathIndependent Fields 939
18.4 PathDependent Vector Fields and Green's Theorem 949
Review Problems Online
Projects Online
19. Flux Integrals and Divergence 961
19.1 The Idea of a Flux Integral 962
19.2 Flux Integrals for Graphs, Cylinders, and Spheres 973
19.3 The Divergence of a Vector Fields 982
19.4 The Divergence Theorem 991
Review Problems Online
Projects Online
20. The Curl and Stokes' Theorem 999
20.1 The Curl of a Vector Fields 1000
20.2 Stokes' Theorem 1008
20.3 The Three Fundamental Theorems 1015
Review Problems Online
Projects Online
21. Parameters, Coordinates, and Integrals 1021
21.1 Coordinates and Parameterized Surfaces 1022
21.2 Change of Corrdinates in a Multiple Integral 1033
21.3 Flux Integrals Over Parameterized Surfaces 1038
Review Problems Online
Projects Online
See More
The Wiley Advantage
Calculus: Multivariable, 7e continues using the "Rule of Four" approach created by the Consortium where ideas are presented graphically, numerically, symbolically and verbally, thereby ancouraging student with a variety of learning styles to expand their knowledge.
See More
Instructors Resources
Wiley Instructor Companion Site
Digital evaluation copy available for this title
Request Copy
Contact your Wiley Representative
Find Your Rep
See More
See Less
Students Resources
Wiley Student Companion Site
See More
See Less