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Now in its fifth edition, Vector Calculus helps students gain an intuitive and solid understanding of this important subject. The book's careful account is a contemporary balance between theory, application, and historical development, providing it's readers with an insight into how mathematics progresses and is in turn influenced by the natural world.
Author Bio
Marsden, Jerrold E. : California Institute of Technology
Tromba, Anthony : University of California, Santa Cruz
1. THE GEOMETRY OF EUCLIDEAN SPACE
1.1 Vectors in Two- and Three-Dimensional Space
1.2 The Inner Product, Length, and Distance
1.3 Matrices, Determinants, and the Cross Product
1.4 Cylindrical and Spherical Coordinates
1.5 n-Dimensional Euclidean Space
2. DIFFERENTIATION SPACE
2.1 The Geometry of Real-Valued Functions
2.2 Limits and Continuity
2.3 Differentiation
2.4 Introduction to Paths
2.5 Properties of the Derivative
2.6 Gradients and Directional Derivatives
3. HIGHER-ORDER DERIVATIVES: MAXIMA AND MINIMA
3.1 Iterated Partial Derivatives
3.2 Taylor's Theorem
3.3 Extrema of Real-Valued Functions
3.4 Constrained Extrema and Lagrange Multipliers
3.5 The Implicit Function Theorem
4. VECTOR-VALUED FUNCTIONS
4.1 Acceleration and Newton's Second Law
4.2 Arc Length
4.3 Vector Fields
4.4 Divergence and Curl
5. DOUBLE AND TRIPLE INTEGRALS
5.1 Introduction
5.2 The Double Integral Over a Rectangle
5.3 The Double Integral Over More General Regions
5.4 Changing the Order of Integration
5.5 The Triple Integral
6. THE CHANGE OF VARIABLES FORMULA AND APPLICATIONS OF INTEGRATION
6.1 The Geometry of Maps from R2 to R2
6.2 The Change of Variables Theorem
6.3 Applications of Double and Triple
6.4 Improper Integrals
7. INTEGRALS OVER PATHS AND SURFACES
7.1 The Path Integral
7.2 Line Integrals
7.3 Parametrized Surfaces
7.4 Area of a Surface
7.5 Integrals of Scalar Functions Over Surfaces
7.6 Surface Integrals of Vector Functions
7.7 Applications to Differential Geometry, Physics and Forms of Life
8. THE INTEGRAL THEOREMS OF VECTOR ANALYSIS
8.1 Green's Theorem
8.2 Stokes' Theorem
8.3 Conservative Fields
8.4 Gauss' Theorem
8.5 Applications to Physics, Engineering, and Differential Equations
8.6 Differential Forms
Jerrold E. Marsden and Anthony Tromba
ISBN13: 978-0716749929Now in its fifth edition, Vector Calculus helps students gain an intuitive and solid understanding of this important subject. The book's careful account is a contemporary balance between theory, application, and historical development, providing it's readers with an insight into how mathematics progresses and is in turn influenced by the natural world.
Author Bio
Marsden, Jerrold E. : California Institute of Technology
Tromba, Anthony : University of California, Santa Cruz
Table of Contents
1. THE GEOMETRY OF EUCLIDEAN SPACE
1.1 Vectors in Two- and Three-Dimensional Space
1.2 The Inner Product, Length, and Distance
1.3 Matrices, Determinants, and the Cross Product
1.4 Cylindrical and Spherical Coordinates
1.5 n-Dimensional Euclidean Space
2. DIFFERENTIATION SPACE
2.1 The Geometry of Real-Valued Functions
2.2 Limits and Continuity
2.3 Differentiation
2.4 Introduction to Paths
2.5 Properties of the Derivative
2.6 Gradients and Directional Derivatives
3. HIGHER-ORDER DERIVATIVES: MAXIMA AND MINIMA
3.1 Iterated Partial Derivatives
3.2 Taylor's Theorem
3.3 Extrema of Real-Valued Functions
3.4 Constrained Extrema and Lagrange Multipliers
3.5 The Implicit Function Theorem
4. VECTOR-VALUED FUNCTIONS
4.1 Acceleration and Newton's Second Law
4.2 Arc Length
4.3 Vector Fields
4.4 Divergence and Curl
5. DOUBLE AND TRIPLE INTEGRALS
5.1 Introduction
5.2 The Double Integral Over a Rectangle
5.3 The Double Integral Over More General Regions
5.4 Changing the Order of Integration
5.5 The Triple Integral
6. THE CHANGE OF VARIABLES FORMULA AND APPLICATIONS OF INTEGRATION
6.1 The Geometry of Maps from R2 to R2
6.2 The Change of Variables Theorem
6.3 Applications of Double and Triple
6.4 Improper Integrals
7. INTEGRALS OVER PATHS AND SURFACES
7.1 The Path Integral
7.2 Line Integrals
7.3 Parametrized Surfaces
7.4 Area of a Surface
7.5 Integrals of Scalar Functions Over Surfaces
7.6 Surface Integrals of Vector Functions
7.7 Applications to Differential Geometry, Physics and Forms of Life
8. THE INTEGRAL THEOREMS OF VECTOR ANALYSIS
8.1 Green's Theorem
8.2 Stokes' Theorem
8.3 Conservative Fields
8.4 Gauss' Theorem
8.5 Applications to Physics, Engineering, and Differential Equations
8.6 Differential Forms