Linear Algebra. Michael L. O'Leary
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Table of Contents
1 Cover
5 Preface
8 CHAPTER 1: Logic and Set Theory 1.1 Statements 1.2 Sets and Quantification 1.3 Sets and Proofs 1.4 Functions
9 CHAPTER 2: Euclidean Space 2.1 Vectors 2.2 Dot Product 2.3 Cross Product
10 CHAPTER 3: Transformations and Matrices 3.1 Linear Transformations 3.2 Matrix Algebra 3.3 Linear Operators 3.4 Injections and Surjections 3.5 Gauss‐Jordan Elimination
11 CHAPTER 4: Invertibility 4.1 Invertible Matrices 4.2 Determinants 4.3 Inverses and Determinants 4.4 Applications
12 CHAPTER 5: Abstract Vectors 5.1 Vector Spaces 5.2 Subspaces 5.3 Linear Independence 5.4 Basis and Dimension 5.5 Rank and Nullity 5.6 Isomorphism
13 CHAPTER 6: Inner Product Spaces 6.1 Inner Products 6.2 Orthonormal Bases
14 CHAPTER 7: Matrix Theory 7.1 Eigenvectors and Eigenvalues 7.2 Minimal Polynomial 7.3 Similar Matrices 7.4 Diagonalization
16 Index
List of Illustrations
1 Chapter 1Figure 1.1 A function f ⊆ A × B .Figure 1.2 The composition of f and g.Figure 1.3 g is not a one‐to‐one function.Figure 1.4 h is a one‐to‐one function.Figure 1.5 f is an onto function.Figure 1.6 g is a bijection.Figure 1.7 The image of C under f.Figure 1.8 The inverse image of D under f.
2 Chapter 2Figure 2.1 Two interpretations of vector as an arrow.Figure 2.2 Addition of arrows.Figure 2.3 Scaling ofarrows.Figure 2.4 Finding the distance between vectors.Figure 2.5 A triangle in ℝ3 .Figure 2.6 The distance between u and v is ‖u − v‖...Figure 2.7 The line L containing u with direction vector m.Figure 2.8 The plane P containing u with direction vectors m and n.Figure 2.9 Lines L and L′ with normal n.Figure 2.10 u = r v + w with w orthogonal to v.Figure 2.11 The distance from the vector u to the plane P.Figure 2.12 The distance from the vector u to the plane P, side view.Figure 2.13 Computing the cross product.Figure 2.14 The parallelogram described by u and v.Figure 2.15 The parallelepiped described by u, v, and w.
3 Chapter 3Figure 3.1 Linear transformations preserve addition.Figure 3.2 Linear transformations preserve scalar multiplication.Figure 3.3 A reflection through the line ℓ.Figure 3.4 A reflection in ℝ2 through the line L.Figure 3.5 A reflection in ℝ3 through the xy‐plane.Figure 3.6 A rotation of θ centered at O.Figure 3.7 A rotation in ℝ2 through θ.Figure 3.8 A rotation in ℝ3 about the z‐axis through θ.Figure 3.9 A rotation in ℝ3 about the z‐axis through θ viewed fro...Figure 3.10 A rotation in ℝ3 of e 3 and e 1 about the y‐axis through θ...Figure 3.11 A reflection is an isometry.Figure 3.12 A rotation is an isometry.Figure 3.13 A translation is anisometry.Figure 3.14 A shear along L.Figure 3.15 A horizontal shear with shear factor k.
4 Chapter 4Figure 4.1 The parallelogram