1. Genetics : analysis of genes and genomes [2019]
- Book
- xxxl, 829 pages : color illustrations, maps (some color) ; 29 cm.
Genetics: Analysis of Genes and Genomes is a resource uniquely suited for learning and applying genetics to our world. Its DNA first presentation frames the discussion of genetics in modern terms, which provides the user the context to then understand its Mendelian history. Genetics continues to treat transmission genetics, molecular genetics, and evolutionary genetics as fully integrated subjects and provides students with an unprecedented understanding of the basic process of gene transmission, mutation, expression, and regulation. A new unit structure with self-contained chapters provides the flexibility to fit any course design, whether it be Mendel-early, Chromosome-early, or a Genome-first approach. The dynamism of genetics is also perfectly captured, as coverage of technological advances is woven together with ethical controversies. Problem-solving is a core element to this experimental discipline, and the ninth edition of Genetics is unparalleled in the tools it provides to unlock this fascinating subject. This rich resource allows students copious opportunities to practice and learn by using the clearly-presented mathematical concepts and exercises and chapter problems that encourage students to analyze and apply new skills.
Genetics: Analysis of Genes and Genomes is a resource uniquely suited for learning and applying genetics to our world. Its DNA first presentation frames the discussion of genetics in modern terms, which provides the user the context to then understand its Mendelian history. Genetics continues to treat transmission genetics, molecular genetics, and evolutionary genetics as fully integrated subjects and provides students with an unprecedented understanding of the basic process of gene transmission, mutation, expression, and regulation. A new unit structure with self-contained chapters provides the flexibility to fit any course design, whether it be Mendel-early, Chromosome-early, or a Genome-first approach. The dynamism of genetics is also perfectly captured, as coverage of technological advances is woven together with ethical controversies. Problem-solving is a core element to this experimental discipline, and the ninth edition of Genetics is unparalleled in the tools it provides to unlock this fascinating subject. This rich resource allows students copious opportunities to practice and learn by using the clearly-presented mathematical concepts and exercises and chapter problems that encourage students to analyze and apply new skills.
Science Library (Li and Ma)
Science Library (Li and Ma) | Status |
---|---|
Stacks | |
QH430 .H331 2019 | Unavailable On order Request |
- Book
- pages cm
Science Library (Li and Ma)
Science Library (Li and Ma) | Status |
---|---|
On order | |
(no call number) | Unavailable On order Request |
- Book
- xviii, 254 pages ; 24 cm
Science Library (Li and Ma)
Science Library (Li and Ma) | Status |
---|---|
Stacks | |
QA275 .H235 2018 | Unknown |
4. Advanced Topics in Relation Algebras [2018]
- Book
- p. cm.
Science Library (Li and Ma)
Science Library (Li and Ma) | Status |
---|---|
On order | |
(no call number) | Unavailable On order Request |
- Book
- 1 volume (various pagings) : color illustrations ; 29 cm
- Part One Organization of the Body 1 Major Themes of Anatomy and PhysiologyATLAS A General Orientation to Human Anatomy 2 The Chemistry of Life 3 Cellular Form and Function 4 Genetics of Cellular Function 5 Histology Part Two Support and Movement 6 The Integumentary System 7 Bone Tissue 8 The Skeletal System 9 Joints 10 The Muscular SystemATLAS B Regional and Surface Anatomy 11 Muscular Tissue Part Three Internal Coordination and Control 12 Nervous Tissue 13 The Spinal Cord, Spinal Nerves, and Somatic Reflexes 14 The Brain and Cranial Nerves 15 The Autonomic Nervous System and Visceral Reflexes 16 Sense Organs 17 The Endocrine System Part Four Circulation and Defense 18 The Circulatory System: Blood 19 The Circulatory System: Heart 20 The Circulatory System: Blood Vessels and Circulation 21 The Lymphatic and Immune Systems Part Five Intake and Output 22 The Respiratory System 23 The Urinary System 24 Fluid, Electrolyte, and Acid - Base Balance 25 The Digestive System 26 Nutrition and Metabolism Part Six Reproduction and the Life Cycle 27 The Male Reproductive System 28 The Female Reproductive System 29 Human Development and Aging APPENDIX A: Periodic Table of the Elements APPENDIX B: Answer Keys APPENDIX C: Symbols, Weights, and Measures APPENDIX D: Biomedical Abbreviations APPENDIX E: The Genetic Code APPENDIX F: Lexicon of biomedical Word Elements APPENDIX G: Eighth Edition Changes in Terminology Glossary CreditsIndex.
- (source: Nielsen Book Data)9781259277726 20170410
(source: Nielsen Book Data)9781259277726 20170410
- Part One Organization of the Body 1 Major Themes of Anatomy and PhysiologyATLAS A General Orientation to Human Anatomy 2 The Chemistry of Life 3 Cellular Form and Function 4 Genetics of Cellular Function 5 Histology Part Two Support and Movement 6 The Integumentary System 7 Bone Tissue 8 The Skeletal System 9 Joints 10 The Muscular SystemATLAS B Regional and Surface Anatomy 11 Muscular Tissue Part Three Internal Coordination and Control 12 Nervous Tissue 13 The Spinal Cord, Spinal Nerves, and Somatic Reflexes 14 The Brain and Cranial Nerves 15 The Autonomic Nervous System and Visceral Reflexes 16 Sense Organs 17 The Endocrine System Part Four Circulation and Defense 18 The Circulatory System: Blood 19 The Circulatory System: Heart 20 The Circulatory System: Blood Vessels and Circulation 21 The Lymphatic and Immune Systems Part Five Intake and Output 22 The Respiratory System 23 The Urinary System 24 Fluid, Electrolyte, and Acid - Base Balance 25 The Digestive System 26 Nutrition and Metabolism Part Six Reproduction and the Life Cycle 27 The Male Reproductive System 28 The Female Reproductive System 29 Human Development and Aging APPENDIX A: Periodic Table of the Elements APPENDIX B: Answer Keys APPENDIX C: Symbols, Weights, and Measures APPENDIX D: Biomedical Abbreviations APPENDIX E: The Genetic Code APPENDIX F: Lexicon of biomedical Word Elements APPENDIX G: Eighth Edition Changes in Terminology Glossary CreditsIndex.
- (source: Nielsen Book Data)9781259277726 20170410
(source: Nielsen Book Data)9781259277726 20170410
Science Library (Li and Ma)
Science Library (Li and Ma) | Status |
---|---|
Stacks | |
QP34.5 .S23 2018 | Unknown |
6. Basic technical mathematics [2018]
- Book
- 1 volume (various pagings) : illustrations (some color) ; 29 cm
- 1 Basic Algebraic Operations 1.1 Numbers 1.2 Fundamental Operations of Algebra 1.3 Calculators and Approximate Numbers 1.4 Exponents and Unit Conversions 1.5 Scientific Notation 1.6 Roots and Radicals 1.7 Addition and Subtraction of Algebraic Expressions 1.8 Multiplication of Algebraic Expressions 1.9 Division of Algebraic Expressions 1.10 Solving Equations 1.11 Formulas and Literal Equations 1.12 Applied Word Problems 2 Geometry 2.1 Lines and Angles 2.2 Triangles 2.3 Quadrilaterals 2.4 Circles 2.5 Measurement of Irregular Areas 2.6 Solid Geometric Figures 3 Functions and Graphs 3.1 Introduction to Functions 3.2 More about Functions 3.3 Rectangular Coordinates 3.4 The Graph of a Function 3.5 Graphs on the Graphing Calculator 3.6 Graphs of Functions Defined by Tables of Data 4 The Trigonometric Functions 4.1 Angles 4.2 Defining the Trigonometric Functions 4.3 Values of the Trigonometric Functions 4.4 The Right Triangle 4.5 Applications of Right Triangles 5 Systems of Linear Equations Determinants 5.1 Linear Equations and Graphs of Linear Functions 5.2 Systems of Equations and Graphical Solutions 5.3 Solving Systems of Two Linear Equations in Two Unknowns Algebraically 5.4 Solving Systems of Two Linear Equations in Two Unknowns by Determinants 5.5 Solving Systems of Three Linear Equations in Three Unknowns Algebraically 5.6 Solving Systems of Three Linear Equations in Three Unknowns by Determinants 6 Factoring and Fractions 6.1 Factoring: Greatest Common Factor and Difference of Squares 6.2 Factoring Trinomials 6.3 The Sum and Difference of Cubes 6.4 Equivalent Fractions 6.5 Multiplication and Division of Fractions 6.6 Addition and Subtraction of Fractions 6.7 Equations Involving Fractions 7 Quadratic Equations 7.1 Quadratic Equations-- Solution by Factoring 7.2 Completing the Square 7.3 The Quadratic Formula 7.4 The Graph of the Quadratic Function 8 Trigonometric Functions of Any Angle 8.1 Signs of the Trigonometric Functions 8.2 Trigonometric Functions of Any Angle 8.3 Radians 8.4 Applications of Radian Measure 9 Vectors and Oblique Triangles 9.1 Introduction to Vectors 9.2 Components of Vectors 9.3 Vector Addition by Components 9.4 Applications of Vectors 9.5 Oblique Triangles, the Law of Sines 9.6 The Law of Cosines 10 Graphs of the Trigonometric Functions 10.1 Graphs of y = a sin x and y = a cos x 10.2 Graphs of y = a sin bx and y = a cos bx 10.3 Graphs of y = a sin (bx + c) and y = a cos (bx + c) 10.4 Graphs of y = tan x, y = cot x, y = sec x, y = csc x 10.5 Applications of the Trigonometric Graphs 10.6 Composite Trigonometric Curves 11 Exponents and Radicals 11.1 Simplifying Expressions with Integer Exponents 11.2 Fractional Exponents 11.3 Simplest Radical Form 11.4 Addition and Subtraction of Radicals 11.5 Multiplication and Division of Radicals 12 Complex Numbers 12.1 Basic Definitions 12.2 Basic Operations with Complex Numbers 12.3 Graphical Representation of Complex Numbers 12.4 Polar Form of a Complex Number 12.5 Exponential Form of a Complex Number 12.6 Products, Quotients, Powers, and Roots of Complex Numbers 12.7 An Application to Alternating-current (ac) Circuits 13 Exponential and Logarithmic Functions 13.1 Exponential Functions 13.2 Logarithmic Functions 13.3 Properties of Logarithms 13.4 Logarithms to the Base 10 13.5 Natural Logarithms 13.6 Exponential and Logarithmic Equations 13.7 Graphs on Logarithmic and Semilogarithmic Paper 14 Additional Types of Equations and Systems of Equations 14.1 Graphical Solution of Systems of Equations 14.2 Algebraic Solution of Systems of Equations 14.3 Equations in Quadratic Form 14.4 Equations with Radicals 15 Equations of Higher Degree 15.1 The Remainder and Factor Theorems-- Synthetic Division 15.2 The Roots of an Equation 15.3 Rational and Irrational Roots 16 Matrices-- Systems of Linear Equations 16.1 Matrices: Definitions and Basic Operations 16.2 Multiplication of Matrices 16.3 Finding the Inverse of a Matrix 16.4 Matrices and Linear Equations 16.5 Gaussian Elimination 16.6 Higher-order Determinants 17 Inequalities 17.1 Properties of Inequalities 17.2 Solving Linear Inequalities 17.3 Solving Nonlinear Inequalities 17.4 Inequalities Involving Absolute Values 17.5 Graphical Solution of Inequalities with Two Variables 17.6 Linear Programming 18 Variation 18.1 Ratio and Proportion 18.2 Variation 19 Sequences and the Binomial Theorem 19.1 Arithmetic Sequences 19.2 Geometric Sequences 19.3 Infinite Geometric Series 19.4 The Binomial Theorem 20 Additional Topics in Trigonometry 20.1 Fundamental Trigonometric Identities 20.2 The Sum and Difference Formulas 20.3 Double-Angle Formulas 20.4 Half-Angle Formulas 20.5 Solving Trigonometric Equations 20.6 The Inverse Trigonometric Functions 21 Plane Analytic Geometry 21.1 Basic Definitions 21.2 The Straight Line 21.3 The Circle 21.4 The Parabola 21.5 The Ellipse 21.6 The Hyperbola 21.7 Translation of Axes 21.8 The Second-degree Equation 21.9 Rotation of Axes 21.10 Polar Coordinates 21.11 Curves in Polar Coordinates 22 Introduction to Statistics 22.1 Graphical Displays of Data 22.2 Measures of Central Tendency 22.3 Standard Deviation 22.4 Normal Distributions 22.5 Statistical Process Control 22.6 Linear Regression 22.7 Nonlinear Regression Appendix A Solving Word Problems Appendix B Units of Measurement.
- (source: Nielsen Book Data)9780134437705 20170515
(source: Nielsen Book Data)9780134437705 20170515
- 1 Basic Algebraic Operations 1.1 Numbers 1.2 Fundamental Operations of Algebra 1.3 Calculators and Approximate Numbers 1.4 Exponents and Unit Conversions 1.5 Scientific Notation 1.6 Roots and Radicals 1.7 Addition and Subtraction of Algebraic Expressions 1.8 Multiplication of Algebraic Expressions 1.9 Division of Algebraic Expressions 1.10 Solving Equations 1.11 Formulas and Literal Equations 1.12 Applied Word Problems 2 Geometry 2.1 Lines and Angles 2.2 Triangles 2.3 Quadrilaterals 2.4 Circles 2.5 Measurement of Irregular Areas 2.6 Solid Geometric Figures 3 Functions and Graphs 3.1 Introduction to Functions 3.2 More about Functions 3.3 Rectangular Coordinates 3.4 The Graph of a Function 3.5 Graphs on the Graphing Calculator 3.6 Graphs of Functions Defined by Tables of Data 4 The Trigonometric Functions 4.1 Angles 4.2 Defining the Trigonometric Functions 4.3 Values of the Trigonometric Functions 4.4 The Right Triangle 4.5 Applications of Right Triangles 5 Systems of Linear Equations Determinants 5.1 Linear Equations and Graphs of Linear Functions 5.2 Systems of Equations and Graphical Solutions 5.3 Solving Systems of Two Linear Equations in Two Unknowns Algebraically 5.4 Solving Systems of Two Linear Equations in Two Unknowns by Determinants 5.5 Solving Systems of Three Linear Equations in Three Unknowns Algebraically 5.6 Solving Systems of Three Linear Equations in Three Unknowns by Determinants 6 Factoring and Fractions 6.1 Factoring: Greatest Common Factor and Difference of Squares 6.2 Factoring Trinomials 6.3 The Sum and Difference of Cubes 6.4 Equivalent Fractions 6.5 Multiplication and Division of Fractions 6.6 Addition and Subtraction of Fractions 6.7 Equations Involving Fractions 7 Quadratic Equations 7.1 Quadratic Equations-- Solution by Factoring 7.2 Completing the Square 7.3 The Quadratic Formula 7.4 The Graph of the Quadratic Function 8 Trigonometric Functions of Any Angle 8.1 Signs of the Trigonometric Functions 8.2 Trigonometric Functions of Any Angle 8.3 Radians 8.4 Applications of Radian Measure 9 Vectors and Oblique Triangles 9.1 Introduction to Vectors 9.2 Components of Vectors 9.3 Vector Addition by Components 9.4 Applications of Vectors 9.5 Oblique Triangles, the Law of Sines 9.6 The Law of Cosines 10 Graphs of the Trigonometric Functions 10.1 Graphs of y = a sin x and y = a cos x 10.2 Graphs of y = a sin bx and y = a cos bx 10.3 Graphs of y = a sin (bx + c) and y = a cos (bx + c) 10.4 Graphs of y = tan x, y = cot x, y = sec x, y = csc x 10.5 Applications of the Trigonometric Graphs 10.6 Composite Trigonometric Curves 11 Exponents and Radicals 11.1 Simplifying Expressions with Integer Exponents 11.2 Fractional Exponents 11.3 Simplest Radical Form 11.4 Addition and Subtraction of Radicals 11.5 Multiplication and Division of Radicals 12 Complex Numbers 12.1 Basic Definitions 12.2 Basic Operations with Complex Numbers 12.3 Graphical Representation of Complex Numbers 12.4 Polar Form of a Complex Number 12.5 Exponential Form of a Complex Number 12.6 Products, Quotients, Powers, and Roots of Complex Numbers 12.7 An Application to Alternating-current (ac) Circuits 13 Exponential and Logarithmic Functions 13.1 Exponential Functions 13.2 Logarithmic Functions 13.3 Properties of Logarithms 13.4 Logarithms to the Base 10 13.5 Natural Logarithms 13.6 Exponential and Logarithmic Equations 13.7 Graphs on Logarithmic and Semilogarithmic Paper 14 Additional Types of Equations and Systems of Equations 14.1 Graphical Solution of Systems of Equations 14.2 Algebraic Solution of Systems of Equations 14.3 Equations in Quadratic Form 14.4 Equations with Radicals 15 Equations of Higher Degree 15.1 The Remainder and Factor Theorems-- Synthetic Division 15.2 The Roots of an Equation 15.3 Rational and Irrational Roots 16 Matrices-- Systems of Linear Equations 16.1 Matrices: Definitions and Basic Operations 16.2 Multiplication of Matrices 16.3 Finding the Inverse of a Matrix 16.4 Matrices and Linear Equations 16.5 Gaussian Elimination 16.6 Higher-order Determinants 17 Inequalities 17.1 Properties of Inequalities 17.2 Solving Linear Inequalities 17.3 Solving Nonlinear Inequalities 17.4 Inequalities Involving Absolute Values 17.5 Graphical Solution of Inequalities with Two Variables 17.6 Linear Programming 18 Variation 18.1 Ratio and Proportion 18.2 Variation 19 Sequences and the Binomial Theorem 19.1 Arithmetic Sequences 19.2 Geometric Sequences 19.3 Infinite Geometric Series 19.4 The Binomial Theorem 20 Additional Topics in Trigonometry 20.1 Fundamental Trigonometric Identities 20.2 The Sum and Difference Formulas 20.3 Double-Angle Formulas 20.4 Half-Angle Formulas 20.5 Solving Trigonometric Equations 20.6 The Inverse Trigonometric Functions 21 Plane Analytic Geometry 21.1 Basic Definitions 21.2 The Straight Line 21.3 The Circle 21.4 The Parabola 21.5 The Ellipse 21.6 The Hyperbola 21.7 Translation of Axes 21.8 The Second-degree Equation 21.9 Rotation of Axes 21.10 Polar Coordinates 21.11 Curves in Polar Coordinates 22 Introduction to Statistics 22.1 Graphical Displays of Data 22.2 Measures of Central Tendency 22.3 Standard Deviation 22.4 Normal Distributions 22.5 Statistical Process Control 22.6 Linear Regression 22.7 Nonlinear Regression Appendix A Solving Word Problems Appendix B Units of Measurement.
- (source: Nielsen Book Data)9780134437705 20170515
(source: Nielsen Book Data)9780134437705 20170515
Science Library (Li and Ma)
Science Library (Li and Ma) | Status |
---|---|
Stacks | |
QA39.3 .W365 2018 | Unknown |
- Book
- 1 volume (various pagings) : color illustrations ; 29 cm
- 1 Basic Algebraic Operations 1.1 Numbers 1.2 Fundamental Operations of Algebra 1.3 Calculators and Approximate Numbers 1.4 Exponents and Unit Conversions 1.5 Scientific Notation 1.6 Roots and Radicals 1.7 Addition and Subtraction of Algebraic Expressions 1.8 Multiplication of Algebraic Expressions 1.9 Division of Algebraic Expressions 1.10 Solving Equations 1.11 Formulas and Literal Equations 1.12 Applied Word Problems 2 Geometry 2.1 Lines and Angles 2.2 Triangles 2.3 Quadrilaterals 2.4 Circles 2.5 Measurement of Irregular Areas 2.6 Solid Geometric Figures 3 Functions and Graphs 3.1 Introduction to Functions 3.2 More about Functions 3.3 Rectangular Coordinates 3.4 The Graph of a Function 3.5 Graphs on the Graphing Calculator 3.6 Graphs of Functions Defined by Tables of Data 4 The Trigonometric Functions 4.1 Angles 4.2 Defining the Trigonometric Functions 4.3 Values of the Trigonometric Functions 4.4 The Right Triangle 4.5 Applications of Right Triangles 5 Systems of Linear Equations Determinants 5.1 Linear Equations and Graphs of Linear Functions 5.2 Systems of Equations and Graphical Solutions 5.3 Solving Systems of Two Linear Equations in Two Unknowns Algebraically 5.4 Solving Systems of Two Linear Equations in Two Unknowns by Determinants 5.5 Solving Systems of Three Linear Equations in Three Unknowns Algebraically 5.6 Solving Systems of Three Linear Equations in Three Unknowns by Determinants 6 Factoring and Fractions 6.1 Factoring: Greatest Common Factor and Difference of Squares 6.2 Factoring Trinomials 6.3 The Sum and Difference of Cubes 6.4 Equivalent Fractions 6.5 Multiplication and Division of Fractions 6.6 Addition and Subtraction of Fractions 6.7 Equations Involving Fractions 7 Quadratic Equations 7.1 Quadratic Equations-- Solution by Factoring 7.2 Completing the Square 7.3 The Quadratic Formula 7.4 The Graph of the Quadratic Function 8 Trigonometric Functions of Any Angle 8.1 Signs of the Trigonometric Functions 8.2 Trigonometric Functions of Any Angle 8.3 Radians 8.4 Applications of Radian Measure 9 Vectors and Oblique Triangles 9.1 Introduction to Vectors 9.2 Components of Vectors 9.3 Vector Addition by Components 9.4 Applications of Vectors 9.5 Oblique Triangles, the Law of Sines 9.6 The Law of Cosines 10 Graphs of the Trigonometric Functions 10.1 Graphs of y = a sin x and y = a cos x 10.2 Graphs of y = a sin bx and y = a cos bx 10.3 Graphs of y = a sin (bx + c) and y = a cos (bx + c) 10.4 Graphs of y = tan x, y = cot x, y = sec x, y = csc x 10.5 Applications of the Trigonometric Graphs 10.6 Composite Trigonometric Curves 11 Exponents and Radicals 11.1 Simplifying Expressions with Integer Exponents 11.2 Fractional Exponents 11.3 Simplest Radical Form 11.4 Addition and Subtraction of Radicals 11.5 Multiplication and Division of Radicals 12 Complex Numbers 12.1 Basic Definitions 12.2 Basic Operations with Complex Numbers 12.3 Graphical Representation of Complex Numbers 12.4 Polar Form of a Complex Number 12.5 Exponential Form of a Complex Number 12.6 Products, Quotients, Powers, and Roots of Complex Numbers 12.7 An Application to Alternating-current (ac) Circuits 13 Exponential and Logarithmic Functions 13.1 Exponential Functions 13.2 Logarithmic Functions 13.3 Properties of Logarithms 13.4 Logarithms to the Base 10 13.5 Natural Logarithms 13.6 Exponential and Logarithmic Equations 13.7 Graphs on Logarithmic and Semilogarithmic Paper 14 Additional Types of Equations and Systems of Equations 14.1 Graphical Solution of Systems of Equations 14.2 Algebraic Solution of Systems of Equations 14.3 Equations in Quadratic Form 14.4 Equations with Radicals 15 Equations of Higher Degree 15.1 The Remainder and Factor Theorems-- Synthetic Division 15.2 The Roots of an Equation 15.3 Rational and Irrational Roots 16 Matrices-- Systems of Linear Equations 16.1 Matrices: Definitions and Basic Operations 16.2 Multiplication of Matrices 16.3 Finding the Inverse of a Matrix 16.4 Matrices and Linear Equations 16.5 Gaussian Elimination 16.6 Higher-order Determinants 17 Inequalities 17.1 Properties of Inequalities 17.2 Solving Linear Inequalities 17.3 Solving Nonlinear Inequalities 17.4 Inequalities Involving Absolute Values 17.5 Graphical Solution of Inequalities with Two Variables 17.6 Linear Programming 18 Variation 18.1 Ratio and Proportion 18.2 Variation 19 Sequences and the Binomial Theorem 19.1 Arithmetic Sequences 19.2 Geometric Sequences 19.3 Infinite Geometric Series 19.4 The Binomial Theorem 20 Additional Topics in Trigonometry 20.1 Fundamental Trigonometric Identities 20.2 The Sum and Difference Formulas 20.3 Double-Angle Formulas 20.4 Half-Angle Formulas 20.5 Solving Trigonometric Equations 20.6 The Inverse Trigonometric Functions 21 Plane Analytic Geometry 21.1 Basic Definitions 21.2 The Straight Line 21.3 The Circle 21.4 The Parabola 21.5 The Ellipse 21.6 The Hyperbola 21.7 Translation of Axes 21.8 The Second-degree Equation 21.9 Rotation of Axes 21.10 Polar Coordinates 21.11 Curves in Polar Coordinates 22 Introduction to Statistics 22.1 Graphical Displays of Data 22.2 Measures of Central Tendency 22.3 Standard Deviation 22.4 Normal Distributions 22.5 Statistical Process Control 22.6 Linear Regression 22.7 Nonlinear Regression 23 The Derivative 23.1 Limits 23.2 The Slope of a Tangent to a Curve 23.3 The Derivative 23.4 The Derivative as an Instantaneous Rate of Change 23.5 Derivatives of Polynomials 23.6 Derivatives of Products and Quotients of Functions 23.7 The Derivative of a Power of a Function 23.8 Differentiation of Implicit Functions 23.9 Higher Derivatives 24 Applications of the Derivative 24.1 Tangents and Normals 24.2 Newton's Method for Solving Equations 24.3 Curvilinear Motion 24.4 Related Rates 24.5 Using Derivatives in Curve Sketching 24.6 More on Curve Sketching 24.7 Applied Maximum and Minimum Problems 24.8 Differentials and Linear Approximations 25 Integration 25.1 Antiderivatives 25.2 The Indefinite Integral 25.3 The Area Under a Curve 25.4 The Definite Integral 25.5 Numerical Integration: The Trapezoidal Rule 25.6 Simpson's Rule 26 Applications of Integration 26.1 Applications of the Indefinite Integral 26.2 Areas by Integration 26.3 Volumes by Integration 26.4 Centroids 26.5 Moments of Inertia 26.6 Other Applications 27 Differentiation of Transcendental Functions 27.1 Derivatives of the Sine and Cosine Functions 27.2 Derivatives of the Other Trigonometric Functions 27.3 Derivatives of the Inverse Trigonometric Functions 27.4 Applications 27.5 Derivative of the Logarithmic Function 27.6 Derivative of the Exponential Function 27.7 L'Hospital's Rule 27.8 Applications 28 Methods of Integration 28.1 The Power Rule for Integration 28.2 The Basic Logarithmic Form 28.3 The Exponential Form 28.4 Basic Trigonometric Forms 28.5 Other Trigonometric Forms 28.6 Inverse Trigonometric Forms 28.7 Integration by Parts 28.8 Integration by Trigonometric Substitution 28.9 Integration by Partial Fractions: Non-repeated Linear Factors 28.10 Integration by Partial Fractions: Other Cases 28.11 Integration by Use of Tables 29 Partial Derivatives and Double Integrals 29.1 Functions of Two Variables 29.2 Curves and Surfaces in Three Dimensions 29.3 Partial Derivatives 29.4 Double Integrals 30 Expansion of Functions in Series 30.1 Infinite Series 30.2 Maclaurin Series 30.3 Operations with Series 30.4 Computations by Use of Series Expansions 30.5 Taylor Series 30.6 Introduction to Fourier Series 30.7 More About Fourier Series 31 Differential Equations 31.1 Solutions of Differential Equations 31.2 Separation of Variables 31.3 Integrating Combinations 31.4 The Linear Differential Equation of the First Order 31.5 Numerical Solutions of First-order Equations 31.6 Elementary Applications 31.7 Higher-order Homogeneous Equations 31.8 Auxiliary Equation with Repeated or Complex Roots 31.9 Solutions of Nonhomogeneous Equations 31.10 Applications of Higher-order Equations 31.11 Laplace Transforms 31.12 Solving Differential Equations by Laplace Transforms Appendix A Solving Word Problems Appendix B Units of Measurement Appendix C Newton's Method Appendix D A Table of Integrals.
- (source: Nielsen Book Data)9780134437736 20170515
(source: Nielsen Book Data)9780134437736 20170515
- 1 Basic Algebraic Operations 1.1 Numbers 1.2 Fundamental Operations of Algebra 1.3 Calculators and Approximate Numbers 1.4 Exponents and Unit Conversions 1.5 Scientific Notation 1.6 Roots and Radicals 1.7 Addition and Subtraction of Algebraic Expressions 1.8 Multiplication of Algebraic Expressions 1.9 Division of Algebraic Expressions 1.10 Solving Equations 1.11 Formulas and Literal Equations 1.12 Applied Word Problems 2 Geometry 2.1 Lines and Angles 2.2 Triangles 2.3 Quadrilaterals 2.4 Circles 2.5 Measurement of Irregular Areas 2.6 Solid Geometric Figures 3 Functions and Graphs 3.1 Introduction to Functions 3.2 More about Functions 3.3 Rectangular Coordinates 3.4 The Graph of a Function 3.5 Graphs on the Graphing Calculator 3.6 Graphs of Functions Defined by Tables of Data 4 The Trigonometric Functions 4.1 Angles 4.2 Defining the Trigonometric Functions 4.3 Values of the Trigonometric Functions 4.4 The Right Triangle 4.5 Applications of Right Triangles 5 Systems of Linear Equations Determinants 5.1 Linear Equations and Graphs of Linear Functions 5.2 Systems of Equations and Graphical Solutions 5.3 Solving Systems of Two Linear Equations in Two Unknowns Algebraically 5.4 Solving Systems of Two Linear Equations in Two Unknowns by Determinants 5.5 Solving Systems of Three Linear Equations in Three Unknowns Algebraically 5.6 Solving Systems of Three Linear Equations in Three Unknowns by Determinants 6 Factoring and Fractions 6.1 Factoring: Greatest Common Factor and Difference of Squares 6.2 Factoring Trinomials 6.3 The Sum and Difference of Cubes 6.4 Equivalent Fractions 6.5 Multiplication and Division of Fractions 6.6 Addition and Subtraction of Fractions 6.7 Equations Involving Fractions 7 Quadratic Equations 7.1 Quadratic Equations-- Solution by Factoring 7.2 Completing the Square 7.3 The Quadratic Formula 7.4 The Graph of the Quadratic Function 8 Trigonometric Functions of Any Angle 8.1 Signs of the Trigonometric Functions 8.2 Trigonometric Functions of Any Angle 8.3 Radians 8.4 Applications of Radian Measure 9 Vectors and Oblique Triangles 9.1 Introduction to Vectors 9.2 Components of Vectors 9.3 Vector Addition by Components 9.4 Applications of Vectors 9.5 Oblique Triangles, the Law of Sines 9.6 The Law of Cosines 10 Graphs of the Trigonometric Functions 10.1 Graphs of y = a sin x and y = a cos x 10.2 Graphs of y = a sin bx and y = a cos bx 10.3 Graphs of y = a sin (bx + c) and y = a cos (bx + c) 10.4 Graphs of y = tan x, y = cot x, y = sec x, y = csc x 10.5 Applications of the Trigonometric Graphs 10.6 Composite Trigonometric Curves 11 Exponents and Radicals 11.1 Simplifying Expressions with Integer Exponents 11.2 Fractional Exponents 11.3 Simplest Radical Form 11.4 Addition and Subtraction of Radicals 11.5 Multiplication and Division of Radicals 12 Complex Numbers 12.1 Basic Definitions 12.2 Basic Operations with Complex Numbers 12.3 Graphical Representation of Complex Numbers 12.4 Polar Form of a Complex Number 12.5 Exponential Form of a Complex Number 12.6 Products, Quotients, Powers, and Roots of Complex Numbers 12.7 An Application to Alternating-current (ac) Circuits 13 Exponential and Logarithmic Functions 13.1 Exponential Functions 13.2 Logarithmic Functions 13.3 Properties of Logarithms 13.4 Logarithms to the Base 10 13.5 Natural Logarithms 13.6 Exponential and Logarithmic Equations 13.7 Graphs on Logarithmic and Semilogarithmic Paper 14 Additional Types of Equations and Systems of Equations 14.1 Graphical Solution of Systems of Equations 14.2 Algebraic Solution of Systems of Equations 14.3 Equations in Quadratic Form 14.4 Equations with Radicals 15 Equations of Higher Degree 15.1 The Remainder and Factor Theorems-- Synthetic Division 15.2 The Roots of an Equation 15.3 Rational and Irrational Roots 16 Matrices-- Systems of Linear Equations 16.1 Matrices: Definitions and Basic Operations 16.2 Multiplication of Matrices 16.3 Finding the Inverse of a Matrix 16.4 Matrices and Linear Equations 16.5 Gaussian Elimination 16.6 Higher-order Determinants 17 Inequalities 17.1 Properties of Inequalities 17.2 Solving Linear Inequalities 17.3 Solving Nonlinear Inequalities 17.4 Inequalities Involving Absolute Values 17.5 Graphical Solution of Inequalities with Two Variables 17.6 Linear Programming 18 Variation 18.1 Ratio and Proportion 18.2 Variation 19 Sequences and the Binomial Theorem 19.1 Arithmetic Sequences 19.2 Geometric Sequences 19.3 Infinite Geometric Series 19.4 The Binomial Theorem 20 Additional Topics in Trigonometry 20.1 Fundamental Trigonometric Identities 20.2 The Sum and Difference Formulas 20.3 Double-Angle Formulas 20.4 Half-Angle Formulas 20.5 Solving Trigonometric Equations 20.6 The Inverse Trigonometric Functions 21 Plane Analytic Geometry 21.1 Basic Definitions 21.2 The Straight Line 21.3 The Circle 21.4 The Parabola 21.5 The Ellipse 21.6 The Hyperbola 21.7 Translation of Axes 21.8 The Second-degree Equation 21.9 Rotation of Axes 21.10 Polar Coordinates 21.11 Curves in Polar Coordinates 22 Introduction to Statistics 22.1 Graphical Displays of Data 22.2 Measures of Central Tendency 22.3 Standard Deviation 22.4 Normal Distributions 22.5 Statistical Process Control 22.6 Linear Regression 22.7 Nonlinear Regression 23 The Derivative 23.1 Limits 23.2 The Slope of a Tangent to a Curve 23.3 The Derivative 23.4 The Derivative as an Instantaneous Rate of Change 23.5 Derivatives of Polynomials 23.6 Derivatives of Products and Quotients of Functions 23.7 The Derivative of a Power of a Function 23.8 Differentiation of Implicit Functions 23.9 Higher Derivatives 24 Applications of the Derivative 24.1 Tangents and Normals 24.2 Newton's Method for Solving Equations 24.3 Curvilinear Motion 24.4 Related Rates 24.5 Using Derivatives in Curve Sketching 24.6 More on Curve Sketching 24.7 Applied Maximum and Minimum Problems 24.8 Differentials and Linear Approximations 25 Integration 25.1 Antiderivatives 25.2 The Indefinite Integral 25.3 The Area Under a Curve 25.4 The Definite Integral 25.5 Numerical Integration: The Trapezoidal Rule 25.6 Simpson's Rule 26 Applications of Integration 26.1 Applications of the Indefinite Integral 26.2 Areas by Integration 26.3 Volumes by Integration 26.4 Centroids 26.5 Moments of Inertia 26.6 Other Applications 27 Differentiation of Transcendental Functions 27.1 Derivatives of the Sine and Cosine Functions 27.2 Derivatives of the Other Trigonometric Functions 27.3 Derivatives of the Inverse Trigonometric Functions 27.4 Applications 27.5 Derivative of the Logarithmic Function 27.6 Derivative of the Exponential Function 27.7 L'Hospital's Rule 27.8 Applications 28 Methods of Integration 28.1 The Power Rule for Integration 28.2 The Basic Logarithmic Form 28.3 The Exponential Form 28.4 Basic Trigonometric Forms 28.5 Other Trigonometric Forms 28.6 Inverse Trigonometric Forms 28.7 Integration by Parts 28.8 Integration by Trigonometric Substitution 28.9 Integration by Partial Fractions: Non-repeated Linear Factors 28.10 Integration by Partial Fractions: Other Cases 28.11 Integration by Use of Tables 29 Partial Derivatives and Double Integrals 29.1 Functions of Two Variables 29.2 Curves and Surfaces in Three Dimensions 29.3 Partial Derivatives 29.4 Double Integrals 30 Expansion of Functions in Series 30.1 Infinite Series 30.2 Maclaurin Series 30.3 Operations with Series 30.4 Computations by Use of Series Expansions 30.5 Taylor Series 30.6 Introduction to Fourier Series 30.7 More About Fourier Series 31 Differential Equations 31.1 Solutions of Differential Equations 31.2 Separation of Variables 31.3 Integrating Combinations 31.4 The Linear Differential Equation of the First Order 31.5 Numerical Solutions of First-order Equations 31.6 Elementary Applications 31.7 Higher-order Homogeneous Equations 31.8 Auxiliary Equation with Repeated or Complex Roots 31.9 Solutions of Nonhomogeneous Equations 31.10 Applications of Higher-order Equations 31.11 Laplace Transforms 31.12 Solving Differential Equations by Laplace Transforms Appendix A Solving Word Problems Appendix B Units of Measurement Appendix C Newton's Method Appendix D A Table of Integrals.
- (source: Nielsen Book Data)9780134437736 20170515
(source: Nielsen Book Data)9780134437736 20170515
Science Library (Li and Ma)
Science Library (Li and Ma) | Status |
---|---|
Stacks | |
QA37.3 .W38 2018 | Unknown |
- Book
- xix, 1293 pages ; 24 cm
In this Completely Revised and Extended Edition with a significantly enhanced printed content, all Chapters have been updated considering relevant literature and recent developments until 2015 together with application oriented examples with a focus on Industrial Biocatalysis. Newly treated topics comprise among others systems metabolic engineering approaches, metagenome screening, new tools for pathway engineering, and de-novo computational design as actual research areas in biocatalysis. Information about different aspects of RNA technologies, and completely new Chapters on 'Fluorescent Proteins' and 'Biocatalysis and Nanotechnology' are also included.
(source: Nielsen Book Data)9781783269082 20171121
(source: Nielsen Book Data)9781783269082 20171121
In this Completely Revised and Extended Edition with a significantly enhanced printed content, all Chapters have been updated considering relevant literature and recent developments until 2015 together with application oriented examples with a focus on Industrial Biocatalysis. Newly treated topics comprise among others systems metabolic engineering approaches, metagenome screening, new tools for pathway engineering, and de-novo computational design as actual research areas in biocatalysis. Information about different aspects of RNA technologies, and completely new Chapters on 'Fluorescent Proteins' and 'Biocatalysis and Nanotechnology' are also included.
(source: Nielsen Book Data)9781783269082 20171121
(source: Nielsen Book Data)9781783269082 20171121
Science Library (Li and Ma)
Science Library (Li and Ma) | Status |
---|---|
Stacks | |
TP248.65 .E59 G78 2018 | Unknown |
9. Bioengineering fundamentals [2018]
- Book
- x, 613 pages ; 27 cm
For sophomore-level courses in Bioengineering, Biomedical Engineering, and related fields. A unifying, interdisciplinary approach to the fundamentals of bioengineering Now in its 2nd Edition, Bioengineering Fundamentals combines engineering principles with technical rigor and a problem-solving focus, ultimately taking a unifying, interdisciplinary approach to the conservation laws that form the foundation of bioengineering: mass, energy, charge, and momentum. The text emphasizes fundamental concepts, practical skill development, and problem-solving strategies while incorporating a wide array of examples and case studies. This 2nd Edition has been updated and expanded with new and clarified content, plus new homework and example problems.
(source: Nielsen Book Data)9780134637433 20170703
(source: Nielsen Book Data)9780134637433 20170703
For sophomore-level courses in Bioengineering, Biomedical Engineering, and related fields. A unifying, interdisciplinary approach to the fundamentals of bioengineering Now in its 2nd Edition, Bioengineering Fundamentals combines engineering principles with technical rigor and a problem-solving focus, ultimately taking a unifying, interdisciplinary approach to the conservation laws that form the foundation of bioengineering: mass, energy, charge, and momentum. The text emphasizes fundamental concepts, practical skill development, and problem-solving strategies while incorporating a wide array of examples and case studies. This 2nd Edition has been updated and expanded with new and clarified content, plus new homework and example problems.
(source: Nielsen Book Data)9780134637433 20170703
(source: Nielsen Book Data)9780134637433 20170703
Science Library (Li and Ma)
Science Library (Li and Ma) | Status |
---|---|
Stacks | |
TA164 .S38 2018 | Unknown |
10. Biology : concepts and applications [2018]
- Book
- xxvii, 854 pages : illustrations (chiefly color), color map ; 28 cm
- INTRODUCTION. 1. The Science of Biology. Unit I: PRINCIPLES OF CELLULAR LIFE. 2. Life's Chemical Basis. 3. Molecules of Life. 4. Cell Structure. 5. Ground Rules of Metabolism. 6. Where It Starts-Photosynthesis. 7. Releasing Chemical Energy. UNIT II: GENETICS. 8. DNA Structure and Function. 9. From DNA to Protein. 10. Control of Gene Expression. 11. How Cells Reproduce. 12. Meiosis and Sexual Reproduction. 13. Patterns in Inherited Traits. 14. Human Inheritance. 15. Biotechnology. UNIT III: PRINCIPLES OF EVOLUTION. 16. Evidence of Evolution. 17. Processes of Evolution. 18. Life's Origin and Early Evolution. UNIT IV: EVOLUTION AND BIODIVERSITY. 19. Viruses, Bacteria, and Archaea. 20. The Protists. 21. Plant Evolution. 22. Fungi. 23. Animals I: Major Invertebrate Groups. 24. Animals II: The Chordates. UNIT V. HOW PLANTS WORK. 25. Plant Tissues. 26. Plant Nutrition and Transport. 27. Plant Reproduction and Development. UNIT VI. HOW ANIMALS WORK. 28. Animal Tissues and Organ Systems. 29. Neural Control. 30. Sensory Perception. 31. Endocrine Control. 32. Structural Support and Movement. 33. Circulation. 34. Immunity. 35. Respiration. 36. Digestion and Human Nutrition. 37. Maintaining the Internal Environment. 38. Reproduction and Development. UNIT VII: PRINCIPLES OF ECOLOGY. 39. Animal Behavior. 40. Population Ecology. 41. Community Ecology. 42. Ecosystems. 43. The Biosphere. 44. Human Effects on the Biosphere. Appendix I: Periodic Table of the Elements. Appendix II: Amino Acids. Appendix III: A Closer Look at Some Major Metabolic Pathways. Appendix IV: A Plain English Map of the Human Chromosomes. Appendix V: Restless Earth-Life's Changing Geologic Stage. Appendix VI: Units of Measure. Appendix VII: Answers to Self-Quizzes and Genetics Problems. Glossary. Index.
- (source: Nielsen Book Data)9781305967335 20170410
(source: Nielsen Book Data)9781305967335 20170410
- INTRODUCTION. 1. The Science of Biology. Unit I: PRINCIPLES OF CELLULAR LIFE. 2. Life's Chemical Basis. 3. Molecules of Life. 4. Cell Structure. 5. Ground Rules of Metabolism. 6. Where It Starts-Photosynthesis. 7. Releasing Chemical Energy. UNIT II: GENETICS. 8. DNA Structure and Function. 9. From DNA to Protein. 10. Control of Gene Expression. 11. How Cells Reproduce. 12. Meiosis and Sexual Reproduction. 13. Patterns in Inherited Traits. 14. Human Inheritance. 15. Biotechnology. UNIT III: PRINCIPLES OF EVOLUTION. 16. Evidence of Evolution. 17. Processes of Evolution. 18. Life's Origin and Early Evolution. UNIT IV: EVOLUTION AND BIODIVERSITY. 19. Viruses, Bacteria, and Archaea. 20. The Protists. 21. Plant Evolution. 22. Fungi. 23. Animals I: Major Invertebrate Groups. 24. Animals II: The Chordates. UNIT V. HOW PLANTS WORK. 25. Plant Tissues. 26. Plant Nutrition and Transport. 27. Plant Reproduction and Development. UNIT VI. HOW ANIMALS WORK. 28. Animal Tissues and Organ Systems. 29. Neural Control. 30. Sensory Perception. 31. Endocrine Control. 32. Structural Support and Movement. 33. Circulation. 34. Immunity. 35. Respiration. 36. Digestion and Human Nutrition. 37. Maintaining the Internal Environment. 38. Reproduction and Development. UNIT VII: PRINCIPLES OF ECOLOGY. 39. Animal Behavior. 40. Population Ecology. 41. Community Ecology. 42. Ecosystems. 43. The Biosphere. 44. Human Effects on the Biosphere. Appendix I: Periodic Table of the Elements. Appendix II: Amino Acids. Appendix III: A Closer Look at Some Major Metabolic Pathways. Appendix IV: A Plain English Map of the Human Chromosomes. Appendix V: Restless Earth-Life's Changing Geologic Stage. Appendix VI: Units of Measure. Appendix VII: Answers to Self-Quizzes and Genetics Problems. Glossary. Index.
- (source: Nielsen Book Data)9781305967335 20170410
(source: Nielsen Book Data)9781305967335 20170410
Science Library (Li and Ma)
Science Library (Li and Ma) | Status |
---|---|
Stacks | |
QH307.2 .S73 2018 | Unknown |
11. Biology : concepts and investigations [2018]
- Book
- xxx, 826, A-11, G-18, I-24 pages ; 29 cm
Science Library (Li and Ma)
Science Library (Li and Ma) | Status |
---|---|
Stacks | |
QH307.2 .H64 2018 | Unavailable On order Request |
12. Biology of domestic animals [2018]
- Book
- xiii, 356 pages ; 24 cm
- DOMESTIC ANIMALS AS COMPARATIVE MODELS TO HUMANS: Equine Exercise Physiology: A Historical Perspective Kenneth H. McKeever The Pig Model for the Study of Obesity and Associated Metabolic Diseases Kolapo M. Ajuwon Growth Hormone and the Chick Eye Steve Harvey and Carlos G. Martinez-Moreno Porosome Enables the Establishment of Fusion Pore at its Base and the Consequent Kiss-and-Run Mechanism of Secretion from Cells Bhanu P. Jena MOLECULAR REGULATION OF GROWTH / METABOLIC EFFICIENCY Epigenetics and Developmental Programming in Ruminants - Long-Term Impacts on Growth and Development Lawrence P. Reynolds, Alison K. Ward and Joel S. Caton Molecular physiology of feed efficiency in beef cattle Claire Fitzsimons, Mark McGee, Kate Keogh, Sinead M. Waters and David A. Kenny Hormonal Control of Energy Substrate Utilization and Energy Metabolism in Domestic Animals Colin G. Scanes and Rodney A. Hill REPRODUCTION Reproduction in Poultry: An Overview Murray R. Bakst ANIMAL STRESS AND WELFARE Stress in Livestock Animals: From Domestication to Factory Production W.M. Rauw and L. Gomez Raya Biology of Stress in Livestock and Poultry Colin G. Scanes, Yvonne Vizzier-Thaxton and Karen Christensen FUTURE DIRECTIONS Nutrient Transporter Gene Expression in Poultry, Livestock and Fish Eric A. Wong, Elizabeth R. Gilbert and Katarzyna B. Miska Novel Peptides in Poultry: A Case Study of the Expanding Glucagon Peptide Superfamily in Chickens (Gallus gallus) Yajun Wang.
- (source: Nielsen Book Data)9781498747851 20171009
(source: Nielsen Book Data)9781498747851 20171009
- DOMESTIC ANIMALS AS COMPARATIVE MODELS TO HUMANS: Equine Exercise Physiology: A Historical Perspective Kenneth H. McKeever The Pig Model for the Study of Obesity and Associated Metabolic Diseases Kolapo M. Ajuwon Growth Hormone and the Chick Eye Steve Harvey and Carlos G. Martinez-Moreno Porosome Enables the Establishment of Fusion Pore at its Base and the Consequent Kiss-and-Run Mechanism of Secretion from Cells Bhanu P. Jena MOLECULAR REGULATION OF GROWTH / METABOLIC EFFICIENCY Epigenetics and Developmental Programming in Ruminants - Long-Term Impacts on Growth and Development Lawrence P. Reynolds, Alison K. Ward and Joel S. Caton Molecular physiology of feed efficiency in beef cattle Claire Fitzsimons, Mark McGee, Kate Keogh, Sinead M. Waters and David A. Kenny Hormonal Control of Energy Substrate Utilization and Energy Metabolism in Domestic Animals Colin G. Scanes and Rodney A. Hill REPRODUCTION Reproduction in Poultry: An Overview Murray R. Bakst ANIMAL STRESS AND WELFARE Stress in Livestock Animals: From Domestication to Factory Production W.M. Rauw and L. Gomez Raya Biology of Stress in Livestock and Poultry Colin G. Scanes, Yvonne Vizzier-Thaxton and Karen Christensen FUTURE DIRECTIONS Nutrient Transporter Gene Expression in Poultry, Livestock and Fish Eric A. Wong, Elizabeth R. Gilbert and Katarzyna B. Miska Novel Peptides in Poultry: A Case Study of the Expanding Glucagon Peptide Superfamily in Chickens (Gallus gallus) Yajun Wang.
- (source: Nielsen Book Data)9781498747851 20171009
(source: Nielsen Book Data)9781498747851 20171009
Science Library (Li and Ma)
Science Library (Li and Ma) | Status |
---|---|
Stacks | |
SF745 .B56 2018 | Unknown |
13. Biopsychology [2018]
- Book
- xxiii, 595 pages : color illustrations ; 29 cm
- What is biopsychology?
- Foundations of biopsychology
- Sensory and motor systems
- Brain plasticity
- Biopsychology of motivation
- Disorders of cognition and emotion.
(source: Nielsen Book Data)9780134203690 20170306
- What is biopsychology?
- Foundations of biopsychology
- Sensory and motor systems
- Brain plasticity
- Biopsychology of motivation
- Disorders of cognition and emotion.
(source: Nielsen Book Data)9780134203690 20170306
Science Library (Li and Ma)
Science Library (Li and Ma) | Status |
---|---|
Stacks | |
QP360 .P463 2018 | Unknown |
- Book
- xvi, 699 pages : color illustrations ; 28 cm
- 1. Introduction to Statistics 2. Exploring Data with Tables and Graphs 3. Describing, Exploring, and Comparing Data 4. Probability 5. Discrete Probability Distributions 6. Normal Probability Distributions 7. Estimating Parameters and Determining Sample Sizes 8. Hypothesis Testing 9. Inferences from Two Samples 10. Correlation and Regression 11. Goodness-of-Fit and Contingency Tables 12. Analysis of Variance 13. Nonparametric Tests 14. Survival Analysis.
- (source: Nielsen Book Data)9780134039015 20170313
(source: Nielsen Book Data)9780134039015 20170313
- 1. Introduction to Statistics 2. Exploring Data with Tables and Graphs 3. Describing, Exploring, and Comparing Data 4. Probability 5. Discrete Probability Distributions 6. Normal Probability Distributions 7. Estimating Parameters and Determining Sample Sizes 8. Hypothesis Testing 9. Inferences from Two Samples 10. Correlation and Regression 11. Goodness-of-Fit and Contingency Tables 12. Analysis of Variance 13. Nonparametric Tests 14. Survival Analysis.
- (source: Nielsen Book Data)9780134039015 20170313
(source: Nielsen Book Data)9780134039015 20170313
Science Library (Li and Ma)
Science Library (Li and Ma) | Status |
---|---|
Stacks | |
QH323.5 .T75 2018 | Unknown |
- Book
- pages cm
Science Library (Li and Ma)
Science Library (Li and Ma) | Status |
---|---|
On order | |
(no call number) | Unavailable On order Request |
16. Brock biology of microorganisms [2018]
- Book
- xxvii, 1022 pages : illustrations (some color) ; 29 cm
- UNIT I: THE FOUNDATIONS OF MICROBIOLOGY 1. The Microbial World 2. Microbial Cell Structure and Function 3. Microbial Metabolism 4. Molecular Information Flow and Protein Processing UNIT II: MICROBIAL GROWTH AND REGULATION 5. Microbial Growth and Its Control 6. Microbial Regulatory Systems 7. Molecular Biology of Microbial Growth 8. Viruses and Their Replication UNIT III: GENOMICS AND GENETICS 9. Microbial Systems Biology 10. Viral Genomics 11. Genetics of Bacteria and Archaea 12. Biotechnology and Synthetic Biology UNIT IV: MICROBIAL EVOLUTION AND DIVERSITY 13. Microbial Evolution and Systematics 14. Metabolic Diversity of Microorganisms 15. Functional Diversity of Microorganisms 16. Diversity of Bacteria 17. Diversity of Archaea 18. Diversity of Microbial Eukarya UNIT V: MICROBIAL ECOLOGY AND ENVIRONMENTAL MICROBIOLOGY 19. Taking the Measure of Microbial Systems 20. Microbial Ecosystems 21. Nutrient Cycles in Nature 22. Microbiology of the Built Environment 23. Microbial Symbioses with Microbes, Plants, and Animals UNIT VI: MICROBE-HUMAN INTERACTIONS AND THE IMMUNE SYSTEM 24. Microbial Symbioses with Humans 25. Microbial Infection and Pathogenesis 26. Innate Immunity: Broadly Specific Host Defenses 27. Adaptive Immunity: Highly Specific Host Defenses 28. Clinical Microbiology and Immunology UNIT VII INFECTIOUS DISEASES AND THEIR TRANSMISSION 29. Epidemiology 30. Person-to-Person Bacterial and Viral Diseases 31. Vectorborne and Soilborne Bacterial and Viral Diseases 32. Foodborne and Waterborne Bacterial and Viral Diseases 33. Eukaryotic Pathogens: Fungi, Protozoa, and Helminths.
- (source: Nielsen Book Data)9780134261928 20171121
- Machine generated contents note: UNIT 1 Foundations of Microbiology
- 1. Microbial World
- Microbiologynow Microorganisms, Our Constant Companions
- I. Exploring the Microbial World
- 1.1. Microorganisms, Tiny Titans of the Earth
- 1.2. Structure and Activities of Microbial Cells
- 1.3. Microorganisms and the Biosphere
- 1.4. Impact of Microorganisms on Human Society
- II. Microscopy and the Origins of Microbiology
- 1.5. Light Microscopy and the Discovery of Microorganisms
- 1.6. Improving Contrast in Light Microscopy
- 1.7. Imaging Cells in Three Dimensions
- 1.8. Probing Cell Structure: Electron Microscopy
- III. Microbial Cultivation Expands the Horizon of Microbiology
- 1.9. Pasteur and Spontaneous Generation
- 1.10. Koch, Infectious Diseases, and Pure Cultures
- 1.11. Discovery of Microbial Diversity
- IV. Molecular Biology and the Unity and Diversity of Life
- 1.12. Molecular Basis of Life
- 1.13. Woese and the Tree of Life
- 1.14. Introduction to Microbial Life
- 2. Microbial Cell Structure and Function
- Microbiologynow The Archaellum: Motility for the Archaea
- I. Cells of Bacteria and Archaea
- 2.1. Cell Morphology
- 2.2. Small World
- II. Cell Membrane and Wall
- 2.3. Cytoplasmic Membrane
- 2.4. Bacterial Cell Walls: Peptidoglycan
- 2.5. LPS: The Outer Membrane
- 2.6. Archaeal Cell Walls
- III. Cell Surface Structures and Inclusions
- 2.7. Cell Surface Structures
- 2.8. Cell Inclusions
- 2.9. Gas Vesicles
- 2.10. Endospores
- IV. Cell Locomotion
- 2.11. Flagella, Archaella, and Swimming Motility
- 2.12. Gliding Motility
- 2.13. Chemotaxis and Other Taxes
- V. Eukaryotic Microbial Cells
- 2.14. Nucleus and Cell Division
- 2.15. Mitochondria, Hydrogenosomes, and Chloroplasts
- 2.16. Other Eukaryotic Cell Structures
- Explore The Microbial World Tiny Cells
- 3. Microbial Metabolism
- Microbiologynow Sugars and Sweets: Archaea Do It Their Way
- I. Microbial Nutrients and Nutrient Uptake
- 3.1. Feeding the Microbe: Cell Nutrition
- 3.2. Transporting Nutrients into the Cell
- II. Energetics, Enzymes, and Redox
- 3.3. Energy Classes of Microorganisms
- 3.4. Principles of Bioenergetics
- 3.5. Catalysis and Enzymes
- 3.6. Electron Donors and Acceptors
- 3.7. Energy-Rich Compounds
- III. Catabolism: Fermentation and Respiration
- 3.8. Glycolysis and Fermentation
- 3.9. Respiration: Citric Acid and Glyoxylate Cycles
- 3.10. Respiration: Electron Carriers
- 3.11. Electron Transport and the Proton Motive Force
- 3.12. Options for Energy Conservation
- IV. Biosyntheses
- 3.13. Sugars and Polysaccharides
- 3.14. Amino Acids and Nucleotides
- 3.15. Fatty Acids and Lipids
- 4. Molecular Information Flow and Protein Processing
- Microbiologynow Synthesis of Jumbo Proteins: Secretion of Halomucin
- I. Molecular Biology and Genetic Elements
- 4.1. DNA and Genetic Information Flow
- 4.2. Genetic Elements: Chromosomes and Plasmids
- II. Copying the Genetic Blueprint: DNA Replication
- 4.3. Templates, Enzymes, and the Replication Fork
- 4.4. Bidirectional Replication, the Replisome, and Proofreading
- III. RNA Synthesis: Transcription
- 4.5. Transcription in Bacteria
- 4.6. Transcription in Archaea and Eukarya
- IV. Protein Synthesis: Translation
- 4.7. Amino Acids, Polypeptides, and Proteins
- 4.8. Transfer RNA
- 4.9. Translation and the Genetic Code
- 4.10. Mechanism of Protein Synthesis
- V. Protein Processing, Secretion, and Targeting
- 4.11. Assisted Protein Folding and Chaperones
- 4.12. Protein Secretion: The Sec and Tat Systems
- 4.13. Protein Secretion: Gram-Negative Systems
- UNIT 2 Microbial Growth and Regulation
- 5. Microbial Growth and Its Control
- Microbiologynow Picking Apart a Microbial Consortium
- I. Cell Division and Population Growth
- 5.1. Binary Fission, Budding, and Biofilms
- 5.2. Quantitative Aspects of Microbial Growth
- 5.3. Microbial Growth Cycle
- 5.4. Continuous Culture
- II. Culturing Microbes and Measuring Their Growth
- 5.5. Growth Media and Laboratory Culture
- 5.6. Microscopic Counts of Microbial Cell Numbers
- 5.7. Viable Counting of Microbial Cell Numbers
- 5.8. Turbidimetric Measures of Microbial Cell Numbers
- III. Environmental Effects on Growth: Temperature
- 5.9. Temperature Classes of Microorganisms
- 5.10. Microbial Life in the Cold
- 5.11. Microbial Life at High Temperatures
- IV. Environmental Effects on Growth: pH, Osmolarity, and Oxygen
- 5.12. Effects of pH on Microbial Growth
- 5.13. Osmolarity and Microbial Growth
- 5.14. Oxygen and Microbial Growth
- V. Controlling Microbial Growth
- 5.15. General Principles and Growth Control by Heat
- 5.16. Other Physical Control Methods: Radiation and Filtration
- 5.17. Chemical Control of Microbial Growth
- 6. Microbial Regulatory Systems
- Microbiologynow Microbial Hunter: Pseudomonas aeruginosa Senses and Scavenges Nutrients from Damaged Tissues
- I. DNA-Binding Proteins and Transcriptional Regulation
- 6.1. DNA-Binding Proteins
- 6.2. Negative Control: Repression and Induction
- 6.3. Positive Control: Activation
- 6.4. Global Control and the lac Operon
- 6.5. Transcription Controls in Archaea
- II. Sensing and Signal Transduction
- 6.6. Two-Component Regulatory Systems
- 6.7. Regulation of Chemotaxis
- 6.8. Quorum Sensing
- 6.9. Stringent Response
- 6.10. Other Global Networks
- III. RNA-Based Regulation
- 6.11. Regulatory RNAs
- 6.12. Riboswitches
- 6.13. Attenuation
- IV. Regulation of Enzymes and Other Proteins
- 6.14. Feedback Inhibition
- 6.15. Post-Translational Regulation
- 7. Molecular Biology of Microbial Growth
- Microbiologynow Explosive Cell Death Promotes Biofilm Formation
- I. Bacterial Cell Division
- 7.1. Visualizing Molecular Growth
- 7.2. Chromosome Replication and Segregation
- 7.3. Cell Division and Fts Proteins
- 7.4. MreB and Cell Morphology
- 7.5. Peptidoglycan Biosynthesis
- II. Regulation of Development in Model Bacteria
- 7.6. Regulation of Endospore Formation
- 7.7. Caulobacter Differentiation
- 7.8. Heterocyst Formation in Anabaena
- 7.9. Biofilm Formation
- III. Antibiotics and Microbial Growth
- 7.10. Antibiotic Targets and Antibiotic Resistance
- 7.11. Persistence and Dormancy
- 8. Viruses and Their Replication
- Microbiologynow Virophages: Viruses That Parasitize Other Viruses
- I. Nature of Viruses
- 8.1. What Is a Virus-- 8.2. Structure of the Virion
- 8.3. Overview of the Virus Life Cycle
- 8.4. Culturing, Detecting, and Counting Viruses
- II. Viral Replication Cycle
- 8.5. Attachment and Entry of Bacteriophage T4
- 8.6. Replication of Bacteriophage T4
- 8.7. Temperate Bacteriophages and Lysogeny
- 8.8. Overview of Animal Virus Infection
- UNIT 3 Genomics and Genetics
- 9. Microbial Systems Biology
- Microbiologynow DNA Sequencing in the Palm of Your Hand
- I. Genomics
- 9.1. Introduction to Genomics
- 9.2. Sequencing and Annotating Genomes
- 9.3. Genome Size and Gene Content in Bacteria and Archaea
- 9.4. Organelle and Eukaryotic Microbial Genomes
- II. Evolution of Genomes
- 9.5. Gene Families, Duplications, and Deletions
- 9.6. Horizontal Gene Transfer and the Mobilome
- 9.7. Core Genome Versus Pan Genome
- III. Functional Omics
- 9.8. Metagenomics
- 9.9. Gene Chips and Transcriptomics
- 9.10. Proteomics and the Interactome
- 9.11. Metabolomics
- IV. Utility of Systems Biology
- 9.12. Single-Cell Genomics
- 9.13. Integrating Mycobacterium tuberculosis Omics
- 9.14. Systems Biology and Human Health
- 10. Viral Genomics, Diversity, and Ecology
- Microbiologynow Viral Imaging to the Rescue: Structural Blueprint of Zika
- I. Viral Genomes and Evolution
- 10.1. Size and Structure of Viral Genomes
- 10.2. Viral Evolution
- II. DNA Viruses
- 10.3. Single-Stranded DNA Bacteriophages: φ[×]174 and M13
- 10.4. Double-Stranded DNA Bacteriophages: T7 and Mu
- 10.5. Viruses of Archaea
- 10.6. Uniquely Replicating DNA Animal Viruses
- 10.7. DNA Tumor Viruses
- III. Viruses with RNA Genomes
- 10.8. Positive-Strand RNA Viruses
- 10.9. Negative-Strand RNA Animal Viruses
- 10.10. Double-Stranded RNA Viruses
- 10.11. Viruses That Use Reverse Transcriptase
- IV. Viral Ecology
- 10.12. Bacterial and Archael Virosphere
- 10.13. Viral Defense Mechanisms of Bacteria and Archaea
- 10.14. Human Virome
- V. Subviral Agents
- 10.15. Viroids
- 10.16. Prions
- 11. Genetics of Bacteria and Archaea
- Microbiologynow Killing and Stealing: DNA Uptake by the Predator Vibrio cholerae
- I. Mutation
- 11.1. Mutations and Mutants
- 11.2. Molecular Basis of Mutation
- 11.3. Reversions and Mutation Rates
- 11.4. Mutagenesis
- II. Gene Transfer in Bacteria
- 11.5. Genetic Recombination
- 11.6. Transformation
- 11.7. Transduction
- 11.8. Conjugation
- 11.9. Formation of Hfr Strains and Chromosome Mobilization
- III. Gene Transfer in Archaea and Other Genetic Events
- 11.10. Horizontal Gene Transfer in Archaea
- 11.11. Mobile DNA: Transposable Elements
- 11.12. Preserving Genomic Integrity: CRISPR Interference
- 12. Biotechnology and Synthetic Biology
- Microbiologynow Creation of a New Life Form: Design of a Minimal Cell
- I. Tools of the Genetic Engineer
- 12.1. Manipulating DNA: PCR and Nucleic Acid Hybridization --
- Contents note continued: 22.3. Bioremediation of Uranium-Contaminated Environments
- 22.4. Bioremediation of Organic Pollutants: Hydrocarbons
- 22.5. Bioremediation of Organic Pollutants: Pesticides and Plastics
- III. Wastewater and Drinking Water Treatment
- 22.6. Primary and Secondary Wastewater Treatment
- 22.7. Advanced Wastewater Treatment
- 22.8. Drinking Water Purification and Stabilization
- 22.9. Water Distribution Systems
- IV. Indoor Microbiology and Microbially Influenced Corrosion
- 22.10. Microbiology of Homes and Public Spaces
- 22.11. Microbially Influenced Corrosion of Metals
- 22.12. Biodeterioration of Stone and Concrete
- 23. Microbial Symbioses with Microbes, Plants, and Animals
- Microbiologynow The Inner Life of Bees
- I. Symbioses between Microorganisms
- 23.1. Lichens
- 23.2. "Chlorochromatium aggregatum"
- II. Plants as Microbial Habitats
- 23.3. Legume--Root Nodule Symbiosis
- 23.4. Mycorrhizae
- 23.5. Agrobacterium and Crown Gall Disease
- III. Insects as Microbial Habitats
- 23.6. Heritable Symbionts of Insects
- 23.7. Termites
- IV. Other Invertebrates as Microbial Habitats
- 23.8. Hawaiian Bobtail Squid
- 23.9. Marine Invertebrates at Hydrothermal Vents and Cold Seeps
- 23.10. Entomopathogenic Nematodes
- 23.11. Reef-Building Corals
- V. Mammalian Gut Systems as Microbial Habitats
- 23.12. Alternative Mammalian Gut Systems
- 23.13. Rumen and Ruminant Animals
- Explore The Microbial World The Multiple Microbial Symbionts of Fungus-Cultivating Ants
- UNIT 6 Microbe--Human Interactions and the Immune System
- 24. Microbial Symbioses with Humans
- Microbiologynow Frozen in Time: The Iceman Microbiome
- I. Structure and Function of the Healthy Adult Human Microbiome
- 24.1. Overview of the Human Microbiome
- 24.2. Gastrointestinal Microbiota
- 24.3. Oral Cavity and Airways
- 24.4. Urogenital Tracts and Their Microbes
- 24.5. Skin and Its Microbes
- II. From Birth to Death: Development of the Human Microbiome
- 24.6. Human Study Groups and Animal Models
- 24.7. Colonization, Succession, and Stability of the Gut Microbiota
- III. Disorders Attributed to the Human Microbiome
- 24.8. Disorders Attributed to the Gut Microbiota
- 24.9. Disorders Attributed to the Oral, Skin, and Vaginal Microbiota
- IV. Modulation of the Human Microbiome
- 24.10. Antibiotics and the Human Microbiome
- 24.11. Probiotics and Prebiotics
- Explore The Microbial World The Gut--Brain Axis
- 25. Microbial Infection and Pathogenesis
- Microbiologynow The Microbial Community That Thrives on Your Teeth
- I. Human--Microbial Interactions
- 25.1. Microbial Adherence
- 25.2. Colonization and Invasion
- 25.3. Pathogenicity, Virulence, and Attenuation
- 25.4. Genetics of Virulence and the Compromised Host
- II. Enzymes and Toxins of Pathogenesis
- 25.5. Enzymes as Virulence Factors
- 25.6. AB-Type Exotoxins
- 25.7. Cytolytic and Superantigen Exotoxins
- 25.8. Endotoxins
- 26. Innate Immunity: Broadly Specific Host Defenses
- Microbiologynow Rehabilitating a Much-Maligned Peptide: Amyloid-β
- I. Fundamentals of Host Defense
- 26.1. Basic Properties of the Immune System
- 26.2. Barriers to Pathogen Invasion
- II. Cells and Organs of the Immune System
- 26.3. Blood and Lymphatic Systems
- 26.4. Leukocyte Production and Diversity
- III. Phagocyte Response Mechanisms
- 26.5. Pathogen Challenge and Phagocyte Recruitment
- 26.6. Pathogen Recognition and Phagocyte Signal Transduction
- 26.7. Phagocytosis and Phagocyte Inhibition
- IV. Other Innate Host Defenses
- 26.8. Inflammation and Fever
- 26.9. Complement System
- 26.10. Innate Defenses against Viruses
- Explore The Microbial World Drosophila Toll Receptors---An Ancient Response to Infections
- 27. Adaptive Immunity: Highly Specific Host Defenses
- Microbiologynow Got (Raw) MilkThe Role of Unprocessed Cow's Milk in Protecting against Allergy and Asthma
- I. Principles of Adaptive Immunity
- 27.1. Specificity, Memory, Selection Processes, and Tolerance
- 27.2. Immunogens and Classes of Immunity
- II. Antibodies
- 27.3. Antibody Production and Structural Diversity
- 27.4. Antigen Binding and the Genetics of Antibody Diversity
- III. Major Histocompatibility Complex (MHC)
- 27.5. MHC Proteins and Their Functions
- 27.6. MHC Polymorphism, Polygeny, and Peptide Binding
- IV. T Cells and Their Receptors
- 27.7. T Cell Receptors: Proteins, Genes, and Diversity
- 27.8. T Cell Diversity
- V. Immune Disorders and Deficiencies
- 27.9. Allergy, Hypersensitivity, and Autoimmunity
- 27.10. Superantigens and Immunodeficiency
- 28. Clinical Microbiology and Immunology
- Microbiologynow Bacteriophages: Tiny Allies in the Fight against Antibiotic-Resistant Bacteria
- I. Clinical Microbiology Setting
- 28.1. Safety in the Microbiology Laboratory
- 28.2. Healthcare-Associated Infections
- II. Isolating and Characterizing Infectious Microorganisms
- 28.3. Workflow in the Clinical Laboratory
- 28.4. Choosing the Right Treatment
- III. Immunological and Molecular Tools for Disease Diagnosis
- 28.5. Immunoassays and Disease
- 28.6. Precipitation, Agglutination, and Immunofluorescence
- 28.7. Enzyme Immunoassays, Rapid Tests, and Immunoblots
- 28.8. Nucleic Acid--Based Clinical Assays
- IV. Prevention and Treatment of Infectious Diseases
- 28.9. Vaccination
- 28.10. Antibacterial Drugs
- 28.11. Antimicrobial Drugs That Target Nonbacterial Pathogens
- 28.12. Antimicrobial Drug Resistance and New Treatment Strategies
- Explore The Microbial World MRSA---A Formidable Clinical Challenge
- UNIT 7 Infectious Diseases and Their Transmission
- 29. Epidemiology
- Microbiologynow A Mysterious New Disease Outbreak
- I. Principles of Epidemiology
- 29.1. Language of Epidemiology
- 29.2. Host Community
- 29.3. Infectious Disease Transmission and Reservoirs
- 29.4. Characteristics of Disease Epidemics
- II. Epidemiology and Public Health
- 29.5. Public Health and Infectious Disease
- 29.6. Global Health Comparisons
- III. Emerging Infectious Diseases, Pandemics, and Other Threats
- 29.7. Emerging and Reemerging Infectious Diseases
- 29.8. Examples of Pandemics: HIV/AIDS, Cholera, and Influenza
- 29.9. Public Health Threats from Microbial Weapons
- Explore The Microbial World Textbook Epidemiology: The SARS Epidemic
- 30. Person-to-Person Bacterial and Viral Diseases
- Microbiologynow A New Weapon against AIDS-- I. Airborne Bacterial Diseases
- 30.1. Airborne Pathogens
- 30.2. Streptococcal Syndromes
- 30.3. Diphtheria and Pertussis
- 30.4. Tuberculosis and Leprosy
- 30.5. Meningitis and Meningococcemia
- II. Airborne Viral Diseases
- 30.6. MMR and Varicella-Zoster Infections
- 30.7. Common Cold
- 30.8. Influenza
- III. Direct-Contact Bacterial and Viral Diseases
- 30.9. Staphylococcus aureus Infections
- 30.10. Helicobacter pylori and Gastric Diseases
- 30.11. Hepatitis
- 30.12. Ebola: A Deadly Threat
- IV. Sexually Transmitted Infections
- 30.13. Gonorrhea and Syphilis
- 30.14. Chlamydia, Herpes, and Human Papillomavirus
- 30.15. HIV/AIDS
- 31. Vectorborne and Soilborne Bacterial and Viral Diseases
- Microbiologynow A New Look at Rabies Vaccines
- I. Animal-Transmitted Viral Diseases
- 31.1. Rabies Virus and Rabies
- 31.2. Hantavirus and Hantavirus Syndromes
- II. Arthropod-Transmitted Bacterial and Viral Diseases
- 31.3. Rickettsial Diseases
- 31.4. Lyme Disease and Borrelia
- 31.5. Yellow Fever, Dengue Fever, Chikungunya, and Zika
- 31.6. West Nile Fever
- 31.7. Plague
- III. Soilborne Bacterial Diseases
- 31.8. Anthrax
- 31.9. Tetanus and Gas Gangrene
- 32. Waterborne and Foodborne Bacterial and Viral Diseases
- Microbiologynow The Classic Botulism Scenario
- I. Water as a Disease Vehicle
- 32.1. Agents and Sources of Waterborne Diseases
- 32.2. Public Health and Water Quality
- II. Waterborne Diseases
- 32.3. Vibrio cholerae and Cholera
- 32.4. Legionellosis
- 32.5. Typhoid Fever and Norovirus Illness
- III. Food as a Disease Vehicle
- 32.6. Food Spoilage and Food Preservation
- 32.7. Foodborne Disease and Food Epidemiology
- IV. Food Poisoning
- 32.8. Staphylococcal Food Poisoning
- 32.9. Clostridial Food Poisoning
- V. Food Infection
- 32.10. Salmonellosis
- 32.11. Pathogenic Escherichia coli
- 32.12. Campylobacter
- 32.13. Listeriosis
- 32.14. Other Foodborne Infectious Diseases
- 33. Eukaryotic Pathogens: Fungi, Protozoa, and Helminths
- Microbiologynow Environmental Change and Parasitic Diseases in the Amazon
- I. Fungal Infections
- 33.1. Pathogenic Fungi and Classes of Infection
- 33.2. Fungal Diseases: Mycoses
- II. Visceral Parasitic Infections
- 33.3. Amoebae and Ciliates: Entamoeba, Naegleria, and Balantidium
- 33.4. Other Visceral Parasites: Giardia, Trichomonas, Cryptosporidium, Toxoplasma, and Cyclospora
- III. Blood and Tissue Parasitic Infections
- 33.5. Plasmodium and Malaria
- 33.6. Leishmaniasis, Trypanosomiasis, and Chagas Disease
- 33.7. Parasitic Helminths: Schistosomiasis and Filariases.
(source: Nielsen Book Data)9780134261928 20171121
- UNIT I: THE FOUNDATIONS OF MICROBIOLOGY 1. The Microbial World 2. Microbial Cell Structure and Function 3. Microbial Metabolism 4. Molecular Information Flow and Protein Processing UNIT II: MICROBIAL GROWTH AND REGULATION 5. Microbial Growth and Its Control 6. Microbial Regulatory Systems 7. Molecular Biology of Microbial Growth 8. Viruses and Their Replication UNIT III: GENOMICS AND GENETICS 9. Microbial Systems Biology 10. Viral Genomics 11. Genetics of Bacteria and Archaea 12. Biotechnology and Synthetic Biology UNIT IV: MICROBIAL EVOLUTION AND DIVERSITY 13. Microbial Evolution and Systematics 14. Metabolic Diversity of Microorganisms 15. Functional Diversity of Microorganisms 16. Diversity of Bacteria 17. Diversity of Archaea 18. Diversity of Microbial Eukarya UNIT V: MICROBIAL ECOLOGY AND ENVIRONMENTAL MICROBIOLOGY 19. Taking the Measure of Microbial Systems 20. Microbial Ecosystems 21. Nutrient Cycles in Nature 22. Microbiology of the Built Environment 23. Microbial Symbioses with Microbes, Plants, and Animals UNIT VI: MICROBE-HUMAN INTERACTIONS AND THE IMMUNE SYSTEM 24. Microbial Symbioses with Humans 25. Microbial Infection and Pathogenesis 26. Innate Immunity: Broadly Specific Host Defenses 27. Adaptive Immunity: Highly Specific Host Defenses 28. Clinical Microbiology and Immunology UNIT VII INFECTIOUS DISEASES AND THEIR TRANSMISSION 29. Epidemiology 30. Person-to-Person Bacterial and Viral Diseases 31. Vectorborne and Soilborne Bacterial and Viral Diseases 32. Foodborne and Waterborne Bacterial and Viral Diseases 33. Eukaryotic Pathogens: Fungi, Protozoa, and Helminths.
- (source: Nielsen Book Data)9780134261928 20171121
- Machine generated contents note: UNIT 1 Foundations of Microbiology
- 1. Microbial World
- Microbiologynow Microorganisms, Our Constant Companions
- I. Exploring the Microbial World
- 1.1. Microorganisms, Tiny Titans of the Earth
- 1.2. Structure and Activities of Microbial Cells
- 1.3. Microorganisms and the Biosphere
- 1.4. Impact of Microorganisms on Human Society
- II. Microscopy and the Origins of Microbiology
- 1.5. Light Microscopy and the Discovery of Microorganisms
- 1.6. Improving Contrast in Light Microscopy
- 1.7. Imaging Cells in Three Dimensions
- 1.8. Probing Cell Structure: Electron Microscopy
- III. Microbial Cultivation Expands the Horizon of Microbiology
- 1.9. Pasteur and Spontaneous Generation
- 1.10. Koch, Infectious Diseases, and Pure Cultures
- 1.11. Discovery of Microbial Diversity
- IV. Molecular Biology and the Unity and Diversity of Life
- 1.12. Molecular Basis of Life
- 1.13. Woese and the Tree of Life
- 1.14. Introduction to Microbial Life
- 2. Microbial Cell Structure and Function
- Microbiologynow The Archaellum: Motility for the Archaea
- I. Cells of Bacteria and Archaea
- 2.1. Cell Morphology
- 2.2. Small World
- II. Cell Membrane and Wall
- 2.3. Cytoplasmic Membrane
- 2.4. Bacterial Cell Walls: Peptidoglycan
- 2.5. LPS: The Outer Membrane
- 2.6. Archaeal Cell Walls
- III. Cell Surface Structures and Inclusions
- 2.7. Cell Surface Structures
- 2.8. Cell Inclusions
- 2.9. Gas Vesicles
- 2.10. Endospores
- IV. Cell Locomotion
- 2.11. Flagella, Archaella, and Swimming Motility
- 2.12. Gliding Motility
- 2.13. Chemotaxis and Other Taxes
- V. Eukaryotic Microbial Cells
- 2.14. Nucleus and Cell Division
- 2.15. Mitochondria, Hydrogenosomes, and Chloroplasts
- 2.16. Other Eukaryotic Cell Structures
- Explore The Microbial World Tiny Cells
- 3. Microbial Metabolism
- Microbiologynow Sugars and Sweets: Archaea Do It Their Way
- I. Microbial Nutrients and Nutrient Uptake
- 3.1. Feeding the Microbe: Cell Nutrition
- 3.2. Transporting Nutrients into the Cell
- II. Energetics, Enzymes, and Redox
- 3.3. Energy Classes of Microorganisms
- 3.4. Principles of Bioenergetics
- 3.5. Catalysis and Enzymes
- 3.6. Electron Donors and Acceptors
- 3.7. Energy-Rich Compounds
- III. Catabolism: Fermentation and Respiration
- 3.8. Glycolysis and Fermentation
- 3.9. Respiration: Citric Acid and Glyoxylate Cycles
- 3.10. Respiration: Electron Carriers
- 3.11. Electron Transport and the Proton Motive Force
- 3.12. Options for Energy Conservation
- IV. Biosyntheses
- 3.13. Sugars and Polysaccharides
- 3.14. Amino Acids and Nucleotides
- 3.15. Fatty Acids and Lipids
- 4. Molecular Information Flow and Protein Processing
- Microbiologynow Synthesis of Jumbo Proteins: Secretion of Halomucin
- I. Molecular Biology and Genetic Elements
- 4.1. DNA and Genetic Information Flow
- 4.2. Genetic Elements: Chromosomes and Plasmids
- II. Copying the Genetic Blueprint: DNA Replication
- 4.3. Templates, Enzymes, and the Replication Fork
- 4.4. Bidirectional Replication, the Replisome, and Proofreading
- III. RNA Synthesis: Transcription
- 4.5. Transcription in Bacteria
- 4.6. Transcription in Archaea and Eukarya
- IV. Protein Synthesis: Translation
- 4.7. Amino Acids, Polypeptides, and Proteins
- 4.8. Transfer RNA
- 4.9. Translation and the Genetic Code
- 4.10. Mechanism of Protein Synthesis
- V. Protein Processing, Secretion, and Targeting
- 4.11. Assisted Protein Folding and Chaperones
- 4.12. Protein Secretion: The Sec and Tat Systems
- 4.13. Protein Secretion: Gram-Negative Systems
- UNIT 2 Microbial Growth and Regulation
- 5. Microbial Growth and Its Control
- Microbiologynow Picking Apart a Microbial Consortium
- I. Cell Division and Population Growth
- 5.1. Binary Fission, Budding, and Biofilms
- 5.2. Quantitative Aspects of Microbial Growth
- 5.3. Microbial Growth Cycle
- 5.4. Continuous Culture
- II. Culturing Microbes and Measuring Their Growth
- 5.5. Growth Media and Laboratory Culture
- 5.6. Microscopic Counts of Microbial Cell Numbers
- 5.7. Viable Counting of Microbial Cell Numbers
- 5.8. Turbidimetric Measures of Microbial Cell Numbers
- III. Environmental Effects on Growth: Temperature
- 5.9. Temperature Classes of Microorganisms
- 5.10. Microbial Life in the Cold
- 5.11. Microbial Life at High Temperatures
- IV. Environmental Effects on Growth: pH, Osmolarity, and Oxygen
- 5.12. Effects of pH on Microbial Growth
- 5.13. Osmolarity and Microbial Growth
- 5.14. Oxygen and Microbial Growth
- V. Controlling Microbial Growth
- 5.15. General Principles and Growth Control by Heat
- 5.16. Other Physical Control Methods: Radiation and Filtration
- 5.17. Chemical Control of Microbial Growth
- 6. Microbial Regulatory Systems
- Microbiologynow Microbial Hunter: Pseudomonas aeruginosa Senses and Scavenges Nutrients from Damaged Tissues
- I. DNA-Binding Proteins and Transcriptional Regulation
- 6.1. DNA-Binding Proteins
- 6.2. Negative Control: Repression and Induction
- 6.3. Positive Control: Activation
- 6.4. Global Control and the lac Operon
- 6.5. Transcription Controls in Archaea
- II. Sensing and Signal Transduction
- 6.6. Two-Component Regulatory Systems
- 6.7. Regulation of Chemotaxis
- 6.8. Quorum Sensing
- 6.9. Stringent Response
- 6.10. Other Global Networks
- III. RNA-Based Regulation
- 6.11. Regulatory RNAs
- 6.12. Riboswitches
- 6.13. Attenuation
- IV. Regulation of Enzymes and Other Proteins
- 6.14. Feedback Inhibition
- 6.15. Post-Translational Regulation
- 7. Molecular Biology of Microbial Growth
- Microbiologynow Explosive Cell Death Promotes Biofilm Formation
- I. Bacterial Cell Division
- 7.1. Visualizing Molecular Growth
- 7.2. Chromosome Replication and Segregation
- 7.3. Cell Division and Fts Proteins
- 7.4. MreB and Cell Morphology
- 7.5. Peptidoglycan Biosynthesis
- II. Regulation of Development in Model Bacteria
- 7.6. Regulation of Endospore Formation
- 7.7. Caulobacter Differentiation
- 7.8. Heterocyst Formation in Anabaena
- 7.9. Biofilm Formation
- III. Antibiotics and Microbial Growth
- 7.10. Antibiotic Targets and Antibiotic Resistance
- 7.11. Persistence and Dormancy
- 8. Viruses and Their Replication
- Microbiologynow Virophages: Viruses That Parasitize Other Viruses
- I. Nature of Viruses
- 8.1. What Is a Virus-- 8.2. Structure of the Virion
- 8.3. Overview of the Virus Life Cycle
- 8.4. Culturing, Detecting, and Counting Viruses
- II. Viral Replication Cycle
- 8.5. Attachment and Entry of Bacteriophage T4
- 8.6. Replication of Bacteriophage T4
- 8.7. Temperate Bacteriophages and Lysogeny
- 8.8. Overview of Animal Virus Infection
- UNIT 3 Genomics and Genetics
- 9. Microbial Systems Biology
- Microbiologynow DNA Sequencing in the Palm of Your Hand
- I. Genomics
- 9.1. Introduction to Genomics
- 9.2. Sequencing and Annotating Genomes
- 9.3. Genome Size and Gene Content in Bacteria and Archaea
- 9.4. Organelle and Eukaryotic Microbial Genomes
- II. Evolution of Genomes
- 9.5. Gene Families, Duplications, and Deletions
- 9.6. Horizontal Gene Transfer and the Mobilome
- 9.7. Core Genome Versus Pan Genome
- III. Functional Omics
- 9.8. Metagenomics
- 9.9. Gene Chips and Transcriptomics
- 9.10. Proteomics and the Interactome
- 9.11. Metabolomics
- IV. Utility of Systems Biology
- 9.12. Single-Cell Genomics
- 9.13. Integrating Mycobacterium tuberculosis Omics
- 9.14. Systems Biology and Human Health
- 10. Viral Genomics, Diversity, and Ecology
- Microbiologynow Viral Imaging to the Rescue: Structural Blueprint of Zika
- I. Viral Genomes and Evolution
- 10.1. Size and Structure of Viral Genomes
- 10.2. Viral Evolution
- II. DNA Viruses
- 10.3. Single-Stranded DNA Bacteriophages: φ[×]174 and M13
- 10.4. Double-Stranded DNA Bacteriophages: T7 and Mu
- 10.5. Viruses of Archaea
- 10.6. Uniquely Replicating DNA Animal Viruses
- 10.7. DNA Tumor Viruses
- III. Viruses with RNA Genomes
- 10.8. Positive-Strand RNA Viruses
- 10.9. Negative-Strand RNA Animal Viruses
- 10.10. Double-Stranded RNA Viruses
- 10.11. Viruses That Use Reverse Transcriptase
- IV. Viral Ecology
- 10.12. Bacterial and Archael Virosphere
- 10.13. Viral Defense Mechanisms of Bacteria and Archaea
- 10.14. Human Virome
- V. Subviral Agents
- 10.15. Viroids
- 10.16. Prions
- 11. Genetics of Bacteria and Archaea
- Microbiologynow Killing and Stealing: DNA Uptake by the Predator Vibrio cholerae
- I. Mutation
- 11.1. Mutations and Mutants
- 11.2. Molecular Basis of Mutation
- 11.3. Reversions and Mutation Rates
- 11.4. Mutagenesis
- II. Gene Transfer in Bacteria
- 11.5. Genetic Recombination
- 11.6. Transformation
- 11.7. Transduction
- 11.8. Conjugation
- 11.9. Formation of Hfr Strains and Chromosome Mobilization
- III. Gene Transfer in Archaea and Other Genetic Events
- 11.10. Horizontal Gene Transfer in Archaea
- 11.11. Mobile DNA: Transposable Elements
- 11.12. Preserving Genomic Integrity: CRISPR Interference
- 12. Biotechnology and Synthetic Biology
- Microbiologynow Creation of a New Life Form: Design of a Minimal Cell
- I. Tools of the Genetic Engineer
- 12.1. Manipulating DNA: PCR and Nucleic Acid Hybridization --
- Contents note continued: 22.3. Bioremediation of Uranium-Contaminated Environments
- 22.4. Bioremediation of Organic Pollutants: Hydrocarbons
- 22.5. Bioremediation of Organic Pollutants: Pesticides and Plastics
- III. Wastewater and Drinking Water Treatment
- 22.6. Primary and Secondary Wastewater Treatment
- 22.7. Advanced Wastewater Treatment
- 22.8. Drinking Water Purification and Stabilization
- 22.9. Water Distribution Systems
- IV. Indoor Microbiology and Microbially Influenced Corrosion
- 22.10. Microbiology of Homes and Public Spaces
- 22.11. Microbially Influenced Corrosion of Metals
- 22.12. Biodeterioration of Stone and Concrete
- 23. Microbial Symbioses with Microbes, Plants, and Animals
- Microbiologynow The Inner Life of Bees
- I. Symbioses between Microorganisms
- 23.1. Lichens
- 23.2. "Chlorochromatium aggregatum"
- II. Plants as Microbial Habitats
- 23.3. Legume--Root Nodule Symbiosis
- 23.4. Mycorrhizae
- 23.5. Agrobacterium and Crown Gall Disease
- III. Insects as Microbial Habitats
- 23.6. Heritable Symbionts of Insects
- 23.7. Termites
- IV. Other Invertebrates as Microbial Habitats
- 23.8. Hawaiian Bobtail Squid
- 23.9. Marine Invertebrates at Hydrothermal Vents and Cold Seeps
- 23.10. Entomopathogenic Nematodes
- 23.11. Reef-Building Corals
- V. Mammalian Gut Systems as Microbial Habitats
- 23.12. Alternative Mammalian Gut Systems
- 23.13. Rumen and Ruminant Animals
- Explore The Microbial World The Multiple Microbial Symbionts of Fungus-Cultivating Ants
- UNIT 6 Microbe--Human Interactions and the Immune System
- 24. Microbial Symbioses with Humans
- Microbiologynow Frozen in Time: The Iceman Microbiome
- I. Structure and Function of the Healthy Adult Human Microbiome
- 24.1. Overview of the Human Microbiome
- 24.2. Gastrointestinal Microbiota
- 24.3. Oral Cavity and Airways
- 24.4. Urogenital Tracts and Their Microbes
- 24.5. Skin and Its Microbes
- II. From Birth to Death: Development of the Human Microbiome
- 24.6. Human Study Groups and Animal Models
- 24.7. Colonization, Succession, and Stability of the Gut Microbiota
- III. Disorders Attributed to the Human Microbiome
- 24.8. Disorders Attributed to the Gut Microbiota
- 24.9. Disorders Attributed to the Oral, Skin, and Vaginal Microbiota
- IV. Modulation of the Human Microbiome
- 24.10. Antibiotics and the Human Microbiome
- 24.11. Probiotics and Prebiotics
- Explore The Microbial World The Gut--Brain Axis
- 25. Microbial Infection and Pathogenesis
- Microbiologynow The Microbial Community That Thrives on Your Teeth
- I. Human--Microbial Interactions
- 25.1. Microbial Adherence
- 25.2. Colonization and Invasion
- 25.3. Pathogenicity, Virulence, and Attenuation
- 25.4. Genetics of Virulence and the Compromised Host
- II. Enzymes and Toxins of Pathogenesis
- 25.5. Enzymes as Virulence Factors
- 25.6. AB-Type Exotoxins
- 25.7. Cytolytic and Superantigen Exotoxins
- 25.8. Endotoxins
- 26. Innate Immunity: Broadly Specific Host Defenses
- Microbiologynow Rehabilitating a Much-Maligned Peptide: Amyloid-β
- I. Fundamentals of Host Defense
- 26.1. Basic Properties of the Immune System
- 26.2. Barriers to Pathogen Invasion
- II. Cells and Organs of the Immune System
- 26.3. Blood and Lymphatic Systems
- 26.4. Leukocyte Production and Diversity
- III. Phagocyte Response Mechanisms
- 26.5. Pathogen Challenge and Phagocyte Recruitment
- 26.6. Pathogen Recognition and Phagocyte Signal Transduction
- 26.7. Phagocytosis and Phagocyte Inhibition
- IV. Other Innate Host Defenses
- 26.8. Inflammation and Fever
- 26.9. Complement System
- 26.10. Innate Defenses against Viruses
- Explore The Microbial World Drosophila Toll Receptors---An Ancient Response to Infections
- 27. Adaptive Immunity: Highly Specific Host Defenses
- Microbiologynow Got (Raw) MilkThe Role of Unprocessed Cow's Milk in Protecting against Allergy and Asthma
- I. Principles of Adaptive Immunity
- 27.1. Specificity, Memory, Selection Processes, and Tolerance
- 27.2. Immunogens and Classes of Immunity
- II. Antibodies
- 27.3. Antibody Production and Structural Diversity
- 27.4. Antigen Binding and the Genetics of Antibody Diversity
- III. Major Histocompatibility Complex (MHC)
- 27.5. MHC Proteins and Their Functions
- 27.6. MHC Polymorphism, Polygeny, and Peptide Binding
- IV. T Cells and Their Receptors
- 27.7. T Cell Receptors: Proteins, Genes, and Diversity
- 27.8. T Cell Diversity
- V. Immune Disorders and Deficiencies
- 27.9. Allergy, Hypersensitivity, and Autoimmunity
- 27.10. Superantigens and Immunodeficiency
- 28. Clinical Microbiology and Immunology
- Microbiologynow Bacteriophages: Tiny Allies in the Fight against Antibiotic-Resistant Bacteria
- I. Clinical Microbiology Setting
- 28.1. Safety in the Microbiology Laboratory
- 28.2. Healthcare-Associated Infections
- II. Isolating and Characterizing Infectious Microorganisms
- 28.3. Workflow in the Clinical Laboratory
- 28.4. Choosing the Right Treatment
- III. Immunological and Molecular Tools for Disease Diagnosis
- 28.5. Immunoassays and Disease
- 28.6. Precipitation, Agglutination, and Immunofluorescence
- 28.7. Enzyme Immunoassays, Rapid Tests, and Immunoblots
- 28.8. Nucleic Acid--Based Clinical Assays
- IV. Prevention and Treatment of Infectious Diseases
- 28.9. Vaccination
- 28.10. Antibacterial Drugs
- 28.11. Antimicrobial Drugs That Target Nonbacterial Pathogens
- 28.12. Antimicrobial Drug Resistance and New Treatment Strategies
- Explore The Microbial World MRSA---A Formidable Clinical Challenge
- UNIT 7 Infectious Diseases and Their Transmission
- 29. Epidemiology
- Microbiologynow A Mysterious New Disease Outbreak
- I. Principles of Epidemiology
- 29.1. Language of Epidemiology
- 29.2. Host Community
- 29.3. Infectious Disease Transmission and Reservoirs
- 29.4. Characteristics of Disease Epidemics
- II. Epidemiology and Public Health
- 29.5. Public Health and Infectious Disease
- 29.6. Global Health Comparisons
- III. Emerging Infectious Diseases, Pandemics, and Other Threats
- 29.7. Emerging and Reemerging Infectious Diseases
- 29.8. Examples of Pandemics: HIV/AIDS, Cholera, and Influenza
- 29.9. Public Health Threats from Microbial Weapons
- Explore The Microbial World Textbook Epidemiology: The SARS Epidemic
- 30. Person-to-Person Bacterial and Viral Diseases
- Microbiologynow A New Weapon against AIDS-- I. Airborne Bacterial Diseases
- 30.1. Airborne Pathogens
- 30.2. Streptococcal Syndromes
- 30.3. Diphtheria and Pertussis
- 30.4. Tuberculosis and Leprosy
- 30.5. Meningitis and Meningococcemia
- II. Airborne Viral Diseases
- 30.6. MMR and Varicella-Zoster Infections
- 30.7. Common Cold
- 30.8. Influenza
- III. Direct-Contact Bacterial and Viral Diseases
- 30.9. Staphylococcus aureus Infections
- 30.10. Helicobacter pylori and Gastric Diseases
- 30.11. Hepatitis
- 30.12. Ebola: A Deadly Threat
- IV. Sexually Transmitted Infections
- 30.13. Gonorrhea and Syphilis
- 30.14. Chlamydia, Herpes, and Human Papillomavirus
- 30.15. HIV/AIDS
- 31. Vectorborne and Soilborne Bacterial and Viral Diseases
- Microbiologynow A New Look at Rabies Vaccines
- I. Animal-Transmitted Viral Diseases
- 31.1. Rabies Virus and Rabies
- 31.2. Hantavirus and Hantavirus Syndromes
- II. Arthropod-Transmitted Bacterial and Viral Diseases
- 31.3. Rickettsial Diseases
- 31.4. Lyme Disease and Borrelia
- 31.5. Yellow Fever, Dengue Fever, Chikungunya, and Zika
- 31.6. West Nile Fever
- 31.7. Plague
- III. Soilborne Bacterial Diseases
- 31.8. Anthrax
- 31.9. Tetanus and Gas Gangrene
- 32. Waterborne and Foodborne Bacterial and Viral Diseases
- Microbiologynow The Classic Botulism Scenario
- I. Water as a Disease Vehicle
- 32.1. Agents and Sources of Waterborne Diseases
- 32.2. Public Health and Water Quality
- II. Waterborne Diseases
- 32.3. Vibrio cholerae and Cholera
- 32.4. Legionellosis
- 32.5. Typhoid Fever and Norovirus Illness
- III. Food as a Disease Vehicle
- 32.6. Food Spoilage and Food Preservation
- 32.7. Foodborne Disease and Food Epidemiology
- IV. Food Poisoning
- 32.8. Staphylococcal Food Poisoning
- 32.9. Clostridial Food Poisoning
- V. Food Infection
- 32.10. Salmonellosis
- 32.11. Pathogenic Escherichia coli
- 32.12. Campylobacter
- 32.13. Listeriosis
- 32.14. Other Foodborne Infectious Diseases
- 33. Eukaryotic Pathogens: Fungi, Protozoa, and Helminths
- Microbiologynow Environmental Change and Parasitic Diseases in the Amazon
- I. Fungal Infections
- 33.1. Pathogenic Fungi and Classes of Infection
- 33.2. Fungal Diseases: Mycoses
- II. Visceral Parasitic Infections
- 33.3. Amoebae and Ciliates: Entamoeba, Naegleria, and Balantidium
- 33.4. Other Visceral Parasites: Giardia, Trichomonas, Cryptosporidium, Toxoplasma, and Cyclospora
- III. Blood and Tissue Parasitic Infections
- 33.5. Plasmodium and Malaria
- 33.6. Leishmaniasis, Trypanosomiasis, and Chagas Disease
- 33.7. Parasitic Helminths: Schistosomiasis and Filariases.
(source: Nielsen Book Data)9780134261928 20171121
Science Library (Li and Ma)
Science Library (Li and Ma) | Status |
---|---|
Stacks | |
QR41.2 .B77 2018 | Unavailable In process Request |
- Book
- xiv, 360 pages ; 25 cm.
- Perspectives and mathematics methods courses. Setting the stage: explorations of mathematics teacher educator practices / Signe E. Kastberg, Andrew M. Tyminski, Alyson E. Lischka, and Wendy B. Sanches ; Political conocimiento for teaching mathematics: why teachers need it and how to develop it / Rochelle Gutiérrez ; Challenges in mathematics teacher education from a (mostly) constructivist perspective / Martin A. Simon ; Teaching a mathematics methods courses: understanding learning from a situative perspective / Elham Kazemi
- Using perspectives to inform scholarly inquiry and practice. Using the knowledge quartet to support prospective teacher development during methods coursework / Tracy L. Weston ; Three learning perspectives for translating curriculum into instruction / Darrell Earnest and Julie M. Amador ; Diverse perspectives on sociopolitical framings for mathematics methods / Frances K. Harper, Beth Herbel-Eisenmann, and Andrea McCloskey
- Learning goals and activities in mathematics methods courses. Experiences using clinical interviews in mathematics methods courses to empower prospective teachers: a conversation among three critical mathematics educators / Theodore Chao, Jessica Hale, and Stephanie Behm Cross ; Situating learning for secondary mathematics prospective teachers within the context of rehearsals: challenges and resulting adaptations / Fran Arbaugh, Anne E. Adams, Dawn Teuscher, Laura R. Van Zoest, and Robert Wieman ; Rehearsing for the politics of teaching mathematics / Rochelle Gutiérrez, Juan Manuael Gerardo, Gabriela E. Vargas, and Sonya E. Irving ; Activities and a cognitive pedagogy for fostering prospective teachers' concept-development practices in mathematics methods courses / Barbara Kinach, Stephen Bismarck, and Wesam Salem
- Activity development. An illustration of scholarly inquiry from the cognitive perspective: the development of an integer activity for prospective elementary or middle school teachers / Nicole M. Wessman-Enzinger and Wesam Salem ; Enhancing activities in mathematics methods courses to achieve sociopolitical goals / Brian R. Lawler, Raymond LaRochelle, and Angela Thompson ; Shifting focus: exploring the evolution of the learner analysis / Jennifer Ward
- Activities and implementations. Bringing mathematics methods into classrooms / Rajeeve Virmani, Megan W. Taylor, and Chepina Rumsey, co-authoring with: Tabatha Box, Elham Kazemi, Melinda Knapp, Savarose Lynch, Catherine Schwartz, Barbara Swartz, Tracy Weston, Dawn Woods ; Prospective teachers analyzing transcripts of teaching / Laura M. Singletary, Zandra de Araujo, and AnnaMarie Connor ; Doing mathematics across languages: exploring possibilities for supporting emergent bilinguals' mathematical communication and engagement / Frances K. Harper, Wendy B. Sanchez, and Beth Herbel-Eisenmann ; Using mathematics autobiography stories to support emerging elementary mathematics teachers' sociopolitical consciousness and identity / Anne Marie Marshall and Theodore Chao
- Looking inward. Interpretations and uses of classroom video in teacher eduction: comparison across three perspectives / Stephanie Casey, Ryan Fox, and Alyson E. Lischka ; Theoretical perspectives, goals, and activities for secondary mathematics education methods courses / Ryan C. Smith, Cynthia E. Taylor, and Dongjo Shin ; The "Mirror Test": a tool for reflection on our sociopolitical identities as mathematics teacher educators / Andrea McCloskey, Brian R. Lawler, and Theodore Chao
- Commentary. A commentary with urgency: looking across theoretical perspectives to put relationship building with underserved students at the forefront of our work / Richard Kitchen.
(source: Nielsen Book Data)9781641130264 20180115
- Perspectives and mathematics methods courses. Setting the stage: explorations of mathematics teacher educator practices / Signe E. Kastberg, Andrew M. Tyminski, Alyson E. Lischka, and Wendy B. Sanches ; Political conocimiento for teaching mathematics: why teachers need it and how to develop it / Rochelle Gutiérrez ; Challenges in mathematics teacher education from a (mostly) constructivist perspective / Martin A. Simon ; Teaching a mathematics methods courses: understanding learning from a situative perspective / Elham Kazemi
- Using perspectives to inform scholarly inquiry and practice. Using the knowledge quartet to support prospective teacher development during methods coursework / Tracy L. Weston ; Three learning perspectives for translating curriculum into instruction / Darrell Earnest and Julie M. Amador ; Diverse perspectives on sociopolitical framings for mathematics methods / Frances K. Harper, Beth Herbel-Eisenmann, and Andrea McCloskey
- Learning goals and activities in mathematics methods courses. Experiences using clinical interviews in mathematics methods courses to empower prospective teachers: a conversation among three critical mathematics educators / Theodore Chao, Jessica Hale, and Stephanie Behm Cross ; Situating learning for secondary mathematics prospective teachers within the context of rehearsals: challenges and resulting adaptations / Fran Arbaugh, Anne E. Adams, Dawn Teuscher, Laura R. Van Zoest, and Robert Wieman ; Rehearsing for the politics of teaching mathematics / Rochelle Gutiérrez, Juan Manuael Gerardo, Gabriela E. Vargas, and Sonya E. Irving ; Activities and a cognitive pedagogy for fostering prospective teachers' concept-development practices in mathematics methods courses / Barbara Kinach, Stephen Bismarck, and Wesam Salem
- Activity development. An illustration of scholarly inquiry from the cognitive perspective: the development of an integer activity for prospective elementary or middle school teachers / Nicole M. Wessman-Enzinger and Wesam Salem ; Enhancing activities in mathematics methods courses to achieve sociopolitical goals / Brian R. Lawler, Raymond LaRochelle, and Angela Thompson ; Shifting focus: exploring the evolution of the learner analysis / Jennifer Ward
- Activities and implementations. Bringing mathematics methods into classrooms / Rajeeve Virmani, Megan W. Taylor, and Chepina Rumsey, co-authoring with: Tabatha Box, Elham Kazemi, Melinda Knapp, Savarose Lynch, Catherine Schwartz, Barbara Swartz, Tracy Weston, Dawn Woods ; Prospective teachers analyzing transcripts of teaching / Laura M. Singletary, Zandra de Araujo, and AnnaMarie Connor ; Doing mathematics across languages: exploring possibilities for supporting emergent bilinguals' mathematical communication and engagement / Frances K. Harper, Wendy B. Sanchez, and Beth Herbel-Eisenmann ; Using mathematics autobiography stories to support emerging elementary mathematics teachers' sociopolitical consciousness and identity / Anne Marie Marshall and Theodore Chao
- Looking inward. Interpretations and uses of classroom video in teacher eduction: comparison across three perspectives / Stephanie Casey, Ryan Fox, and Alyson E. Lischka ; Theoretical perspectives, goals, and activities for secondary mathematics education methods courses / Ryan C. Smith, Cynthia E. Taylor, and Dongjo Shin ; The "Mirror Test": a tool for reflection on our sociopolitical identities as mathematics teacher educators / Andrea McCloskey, Brian R. Lawler, and Theodore Chao
- Commentary. A commentary with urgency: looking across theoretical perspectives to put relationship building with underserved students at the forefront of our work / Richard Kitchen.
(source: Nielsen Book Data)9781641130264 20180115
Science Library (Li and Ma)
Science Library (Li and Ma) | Status |
---|---|
Stacks | |
QA11.2 .B8674 2018 | Unavailable At Li and Ma Science Library circulation desk Request |
18. Calculus & its applications [2018]
- Book
- 1 volume (various pagings) : illustrations (some color) ; 29 cm
- 0. Functions 0.1 Functions and Their Graphs 0.2 Some Important Functions 0.3 The Algebra of Functions 0.4 Zeros of Functions - The Quadratic Formula and Factoring 0.5 Exponents and Power Functions 0.6 Functions and Graphs in Applications 1. The Derivative 1.1 The Slope of a Straight Line 1.2 The Slope of a Curve at a Point 1.3 The Derivative and Limits 1.4 Limits and the Derivative 1.5 Differentiability and Continuity 1.6 Some Rules for Differentiation 1.7 More About Derivatives 1.8 The Derivative as a Rate of Change 2. Applications of the Derivative 2.1 Describing Graphs of Functions 2.2 The First and Second Derivative Rules 2.3 The First and Section Derivative Tests and Curve Sketching 2.4 Curve Sketching (Conclusion) 2.5 Optimization Problems 2.6 Further Optimization Problems 2.7 Applications of Derivatives to Business and Economics 3. Techniques of Differentiation 3.1 The Product and Quotient Rules 3.2 The Chain Rule 3.3 Implicit Differentiation and Related Rates 4. The Exponential and Natural Logarithm Functions 4.1 Exponential Functions 4.2 The Exponential Function ex 4.3 Differentiation of Exponential Functions 4.4 The Natural Logarithm Function 4.5 The Derivative of ln x 4.6 Properties of the Natural Logarithm Function 5. Applications of the Exponential and Natural Logarithm Functions 5.1 Exponential Growth and Decay 5.2 Compound Interest 5.3. Applications of the Natural Logarithm Function to Economics 5.4. Further Exponential Models 6. The Definite Integral 6.1 Antidifferentiation 6.2 The Definite Integral and Net Change of a Function 6.3 The Definite Integral and Area Under a Graph 6.4 Areas in the xy-Plane 6.5 Applications of the Definite Integral 7. Functions of Several Variables 7.1 Examples of Functions of Several Variables 7.2 Partial Derivatives 7.3 Maxima and Minima of Functions of Several Variables 7.4 Lagrange Multipliers and Constrained Optimization 7.5 The Method of Least Squares 7.6 Double Integrals 8. The Trigonometric Functions 8.1 Radian Measure of Angles 8.2 The Sine and the Cosine 8.3 Differentiation and Integration of sin t and cos t 8.4 The Tangent and Other Trigonometric Functions 9. Techniques of Integration 9.1 Integration by Substitution 9.2 Integration by Parts 9.3 Evaluation of Definite Integrals 9.4 Approximation of Definite Integrals 9.5 Some Applications of the Integral 9.6 Improper Integrals 10. Differential Equations 10.1 Solutions of Differential Equations 10.2 Separation of Variables 10.3 First-Order Linear Differential Equations 10.4 Applications of First-Order Linear Differential Equations 10.5 Graphing Solutions of Differential Equations 10.6 Applications of Differential Equations 10.7 Numerical Solution of Differential Equations 11. Taylor Polynomials and Infinite Series 11.1 Taylor Polynomials 11.2 The Newton-Raphson Algorithm 11.3 Infinite Series 11.4 Series with Positive Terms 11.5 Taylor Series 12. Probability and Calculus 12.1 Discrete Random Variables 12.2 Continuous Random Variables 12.3 Expected Value and Variance 12.4 Exponential and Normal Random Variables 12.5 Poisson and Geometric Random Variables.
- (source: Nielsen Book Data)9780134437774 20170717
(source: Nielsen Book Data)9780134437774 20170717
- 0. Functions 0.1 Functions and Their Graphs 0.2 Some Important Functions 0.3 The Algebra of Functions 0.4 Zeros of Functions - The Quadratic Formula and Factoring 0.5 Exponents and Power Functions 0.6 Functions and Graphs in Applications 1. The Derivative 1.1 The Slope of a Straight Line 1.2 The Slope of a Curve at a Point 1.3 The Derivative and Limits 1.4 Limits and the Derivative 1.5 Differentiability and Continuity 1.6 Some Rules for Differentiation 1.7 More About Derivatives 1.8 The Derivative as a Rate of Change 2. Applications of the Derivative 2.1 Describing Graphs of Functions 2.2 The First and Second Derivative Rules 2.3 The First and Section Derivative Tests and Curve Sketching 2.4 Curve Sketching (Conclusion) 2.5 Optimization Problems 2.6 Further Optimization Problems 2.7 Applications of Derivatives to Business and Economics 3. Techniques of Differentiation 3.1 The Product and Quotient Rules 3.2 The Chain Rule 3.3 Implicit Differentiation and Related Rates 4. The Exponential and Natural Logarithm Functions 4.1 Exponential Functions 4.2 The Exponential Function ex 4.3 Differentiation of Exponential Functions 4.4 The Natural Logarithm Function 4.5 The Derivative of ln x 4.6 Properties of the Natural Logarithm Function 5. Applications of the Exponential and Natural Logarithm Functions 5.1 Exponential Growth and Decay 5.2 Compound Interest 5.3. Applications of the Natural Logarithm Function to Economics 5.4. Further Exponential Models 6. The Definite Integral 6.1 Antidifferentiation 6.2 The Definite Integral and Net Change of a Function 6.3 The Definite Integral and Area Under a Graph 6.4 Areas in the xy-Plane 6.5 Applications of the Definite Integral 7. Functions of Several Variables 7.1 Examples of Functions of Several Variables 7.2 Partial Derivatives 7.3 Maxima and Minima of Functions of Several Variables 7.4 Lagrange Multipliers and Constrained Optimization 7.5 The Method of Least Squares 7.6 Double Integrals 8. The Trigonometric Functions 8.1 Radian Measure of Angles 8.2 The Sine and the Cosine 8.3 Differentiation and Integration of sin t and cos t 8.4 The Tangent and Other Trigonometric Functions 9. Techniques of Integration 9.1 Integration by Substitution 9.2 Integration by Parts 9.3 Evaluation of Definite Integrals 9.4 Approximation of Definite Integrals 9.5 Some Applications of the Integral 9.6 Improper Integrals 10. Differential Equations 10.1 Solutions of Differential Equations 10.2 Separation of Variables 10.3 First-Order Linear Differential Equations 10.4 Applications of First-Order Linear Differential Equations 10.5 Graphing Solutions of Differential Equations 10.6 Applications of Differential Equations 10.7 Numerical Solution of Differential Equations 11. Taylor Polynomials and Infinite Series 11.1 Taylor Polynomials 11.2 The Newton-Raphson Algorithm 11.3 Infinite Series 11.4 Series with Positive Terms 11.5 Taylor Series 12. Probability and Calculus 12.1 Discrete Random Variables 12.2 Continuous Random Variables 12.3 Expected Value and Variance 12.4 Exponential and Normal Random Variables 12.5 Poisson and Geometric Random Variables.
- (source: Nielsen Book Data)9780134437774 20170717
(source: Nielsen Book Data)9780134437774 20170717
Science Library (Li and Ma)
Science Library (Li and Ma) | Status |
---|---|
Stacks | |
QA303.2 .G66 2018 | Unknown |
19. Calculus : with CalcChat and CalcView [2018]
- Book
- 1 volume (various pagings) : color illustrations ; 29 cm
- P. PREPARATION FOR CALCULUS. Graphs and Models. Linear Models and Rates of Change. Functions and Their Graphs. Review of Trigonometric Functions. Review Exercises. P.S. Problem Solving. 1. LIMITS AND THEIR PROPERTIES. A Preview of Calculus. Finding Limits Graphically and Numerically. Evaluating Limits Analytically. Continuity and One-Sided Limits. Infinite Limits. Section Project: Graphs and Limits of Trigonometric Functions. Review Exercises. P.S. Problem Solving. 2. DIFFERENTIATION. The Derivative and the Tangent Line Problem. Basic Differentiation Rules and Rates of Change. Product and Quotient Rules and Higher-Order Derivatives. The Chain Rule. Implicit Differentiation. Section Project: Optical Illusions. Related Rates. Review Exercises. P.S. Problem Solving. 3. APPLICATIONS OF DIFFERENTIATION. Extrema on an Interval. Rolle"s Theorem and the Mean Value Theorem. Increasing and Decreasing Functions and the First Derivative Test. Section Project: Even Fourth-Degree Polynomials. Concavity and the Second Derivative Test. Limits at Infinity. A Summary of Curve Sketching. Optimization Problems. Section Project: Minimum Time. Newton"s Method. Differentials. Review Exercises. P.S. Problem Solving. 4. INTEGRATION. Antiderivatives and Indefinite Integration. Area. Riemann Sums and Definite Integrals. The Fundamental Theorem of Calculus. Section Project: Demonstrating the Fundamental Theorem. Integration by Substitution. Review Exercises. P.S. Problem Solving. 5. LOGARITHMIC, EXPONENTIAL, AND OTHER TRANSCENDENTAL FUNCTIONS. The Natural Logarithmic Function: Differentiation. The Natural Logarithmic Function: Integration. Inverse Functions. Exponential Functions: Differentiation and Integration. Bases Other than e and Applications. Section Project: Using Graphing Utilities to Estimate Slope. Indeterminate Forms and L'Hopital's Rule. Inverse Trigonometric Functions: Differentiation. Inverse Trigonometric Functions: Integration. Hyperbolic Functions. Section Project: Mercator Map. Review Exercises. P.S. Problem Solving. 6. DIFFERENTIAL EQUATIONS. Slope Fields and Euler"s Method. Growth and Decay. Separation of Variables and the Logistic Equation. First-Order Linear Differential Equations. Section Project: Weight Loss. Review Exercises. P.S. Problem Solving. 7. APPLICATIONS OF INTEGRATION. Area of a Region Between Two Curves. Volume: The Disk Method. Volume: The Shell Method. Section Project: Saturn. Arc Length and Surfaces of Revolution. Work. Section Project: Pyramid of Khufu. Moments, Centers of Mass, and Centroids. Fluid Pressure and Fluid Force. Review Exercises. P.S. Problem Solving. 8. INTEGRATION TECHNIQUES AND IMPROPER INTEGRALS. Basic Integration Rules. Integration by Parts. Trigonometric Integrals. Section Project: The Wallis Product. Trigonometric Substitution. Partial Fractions. Numerical Integration. Integration by Tables and Other Integration Techniques. Improper Integrals. Review Exercises. P.S. Problem Solving. 9. INFINITE SERIES. Sequences. Series and Convergence. Section Project: Cantor"s Disappearing Table. The Integral Test and p-Series. Section Project: The Harmonic Series. Comparisons of Series. Alternating Series. The Ratio and Root Tests. Taylor Polynomials and Approximations. Power Series. Representation of Functions by Power Series. Taylor and Maclaurin Series. Review Exercises. P.S. Problem Solving. 10. CONICS, PARAMETRIC EQUATIONS, AND POLAR COORDINATES. Conics and Calculus. Plane Curves and Parametric Equations. Section Project: Cycloids. Parametric Equations and Calculus. Polar Coordinates and Polar Graphs. Section Project: Cassini Oval. Area and Arc Length in Polar Coordinates. Polar Equations of Conics and Kepler"s Laws. Review Exercises. P.S. Problem Solving. 11. VECTORS AND THE GEOMETRY OF SPACE. Vectors in the Plane. Space Coordinates and Vectors in Space. The Dot Product of Two Vectors. The Cross Product of Two Vectors in Space. Lines and Planes in Space. Section Project: Distances in Space. Surfaces in Space. Cylindrical and Spherical Coordinates. Review Exercises. P.S. Problem Solving. 12. VECTOR-VALUED FUNCTIONS. Vector-Valued Functions. Section Project: Witch of Agnesi. Differentiation and Integration of Vector-Valued Functions. Velocity and Acceleration. Tangent Vectors and Normal Vectors. Arc Length and Curvature. Review Exercises. P.S. Problem Solving. 13. FUNCTIONS OF SEVERAL VARIABLES. Introduction to Functions of Several Variables. Limits and Continuity. Partial Derivatives. Differentials. Chain Rules for Functions of Several Variables. Directional Derivatives and Gradients. Tangent Planes and Normal Lines. Section Project: Wildflowers. Extrema of Functions of Two Variables. Applications of Extrema of Functions of Two Variables. Section Project: Building a Pipeline. Lagrange Multipliers. Review Exercises. P.S. Problem Solving. 14. MULTIPLE INTEGRATION. Iterated Integrals and Area in the Plane. Double Integrals and Volume. Change of Variables: Polar Coordinates. Center of Mass and Moments of Inertia. Section Project: Center of Pressure on a Sail. Surface Area. Section Project: Surface Area in Polar Coordinates. Triple Integrals and Applications. Triple Integrals in Cylindrical and Spherical Coordinates. Section Project: Wrinkled and Bumpy Spheres. Change of Variables: Jacobians. Review Exercises. P.S. Problem Solving. 15. VECTOR ANALYSIS. Vector Fields. Line Integrals. Conservative Vector Fields and Independence of Path. Green"s Theorem. Section Project: Hyperbolic and Trigonometric Functions. Parametric Surfaces. Surface Integrals. Section Project: Hyperboloid of One Sheet. Divergence Theorem. Stokes" Theorem. Review Exercises. Section Project: The Planimeter. P.S. Problem Solving. 16. SECOND ORDER DIFFERENTIAL EQUATIONS* ONLINE. Exact First-Order Equations. Second-Order Homogeneous Linear Equations. Second-Order Nonhomogeneous Linear Equations. Section Project: Parachute Jump. Series Solutions of Differential Equations. Review Exercises. P.S. Problem Solving. APPENDIX. A. Proofs of Selected Theorems. B. Integration Tables. C. Precalculus Review (Web). C.1. Real Numbers and the Real Number Line. C.2. The Cartesian Plane. D. Rotation and the General Second-Degree Equation (Web). E. Complex Numbers (Web). F. Business and Economic Applications (Web). G. Fitting Models to Data (Web).
- (source: Nielsen Book Data)9781337275347 20170403
(source: Nielsen Book Data)9781337275347 20170403
- P. PREPARATION FOR CALCULUS. Graphs and Models. Linear Models and Rates of Change. Functions and Their Graphs. Review of Trigonometric Functions. Review Exercises. P.S. Problem Solving. 1. LIMITS AND THEIR PROPERTIES. A Preview of Calculus. Finding Limits Graphically and Numerically. Evaluating Limits Analytically. Continuity and One-Sided Limits. Infinite Limits. Section Project: Graphs and Limits of Trigonometric Functions. Review Exercises. P.S. Problem Solving. 2. DIFFERENTIATION. The Derivative and the Tangent Line Problem. Basic Differentiation Rules and Rates of Change. Product and Quotient Rules and Higher-Order Derivatives. The Chain Rule. Implicit Differentiation. Section Project: Optical Illusions. Related Rates. Review Exercises. P.S. Problem Solving. 3. APPLICATIONS OF DIFFERENTIATION. Extrema on an Interval. Rolle"s Theorem and the Mean Value Theorem. Increasing and Decreasing Functions and the First Derivative Test. Section Project: Even Fourth-Degree Polynomials. Concavity and the Second Derivative Test. Limits at Infinity. A Summary of Curve Sketching. Optimization Problems. Section Project: Minimum Time. Newton"s Method. Differentials. Review Exercises. P.S. Problem Solving. 4. INTEGRATION. Antiderivatives and Indefinite Integration. Area. Riemann Sums and Definite Integrals. The Fundamental Theorem of Calculus. Section Project: Demonstrating the Fundamental Theorem. Integration by Substitution. Review Exercises. P.S. Problem Solving. 5. LOGARITHMIC, EXPONENTIAL, AND OTHER TRANSCENDENTAL FUNCTIONS. The Natural Logarithmic Function: Differentiation. The Natural Logarithmic Function: Integration. Inverse Functions. Exponential Functions: Differentiation and Integration. Bases Other than e and Applications. Section Project: Using Graphing Utilities to Estimate Slope. Indeterminate Forms and L'Hopital's Rule. Inverse Trigonometric Functions: Differentiation. Inverse Trigonometric Functions: Integration. Hyperbolic Functions. Section Project: Mercator Map. Review Exercises. P.S. Problem Solving. 6. DIFFERENTIAL EQUATIONS. Slope Fields and Euler"s Method. Growth and Decay. Separation of Variables and the Logistic Equation. First-Order Linear Differential Equations. Section Project: Weight Loss. Review Exercises. P.S. Problem Solving. 7. APPLICATIONS OF INTEGRATION. Area of a Region Between Two Curves. Volume: The Disk Method. Volume: The Shell Method. Section Project: Saturn. Arc Length and Surfaces of Revolution. Work. Section Project: Pyramid of Khufu. Moments, Centers of Mass, and Centroids. Fluid Pressure and Fluid Force. Review Exercises. P.S. Problem Solving. 8. INTEGRATION TECHNIQUES AND IMPROPER INTEGRALS. Basic Integration Rules. Integration by Parts. Trigonometric Integrals. Section Project: The Wallis Product. Trigonometric Substitution. Partial Fractions. Numerical Integration. Integration by Tables and Other Integration Techniques. Improper Integrals. Review Exercises. P.S. Problem Solving. 9. INFINITE SERIES. Sequences. Series and Convergence. Section Project: Cantor"s Disappearing Table. The Integral Test and p-Series. Section Project: The Harmonic Series. Comparisons of Series. Alternating Series. The Ratio and Root Tests. Taylor Polynomials and Approximations. Power Series. Representation of Functions by Power Series. Taylor and Maclaurin Series. Review Exercises. P.S. Problem Solving. 10. CONICS, PARAMETRIC EQUATIONS, AND POLAR COORDINATES. Conics and Calculus. Plane Curves and Parametric Equations. Section Project: Cycloids. Parametric Equations and Calculus. Polar Coordinates and Polar Graphs. Section Project: Cassini Oval. Area and Arc Length in Polar Coordinates. Polar Equations of Conics and Kepler"s Laws. Review Exercises. P.S. Problem Solving. 11. VECTORS AND THE GEOMETRY OF SPACE. Vectors in the Plane. Space Coordinates and Vectors in Space. The Dot Product of Two Vectors. The Cross Product of Two Vectors in Space. Lines and Planes in Space. Section Project: Distances in Space. Surfaces in Space. Cylindrical and Spherical Coordinates. Review Exercises. P.S. Problem Solving. 12. VECTOR-VALUED FUNCTIONS. Vector-Valued Functions. Section Project: Witch of Agnesi. Differentiation and Integration of Vector-Valued Functions. Velocity and Acceleration. Tangent Vectors and Normal Vectors. Arc Length and Curvature. Review Exercises. P.S. Problem Solving. 13. FUNCTIONS OF SEVERAL VARIABLES. Introduction to Functions of Several Variables. Limits and Continuity. Partial Derivatives. Differentials. Chain Rules for Functions of Several Variables. Directional Derivatives and Gradients. Tangent Planes and Normal Lines. Section Project: Wildflowers. Extrema of Functions of Two Variables. Applications of Extrema of Functions of Two Variables. Section Project: Building a Pipeline. Lagrange Multipliers. Review Exercises. P.S. Problem Solving. 14. MULTIPLE INTEGRATION. Iterated Integrals and Area in the Plane. Double Integrals and Volume. Change of Variables: Polar Coordinates. Center of Mass and Moments of Inertia. Section Project: Center of Pressure on a Sail. Surface Area. Section Project: Surface Area in Polar Coordinates. Triple Integrals and Applications. Triple Integrals in Cylindrical and Spherical Coordinates. Section Project: Wrinkled and Bumpy Spheres. Change of Variables: Jacobians. Review Exercises. P.S. Problem Solving. 15. VECTOR ANALYSIS. Vector Fields. Line Integrals. Conservative Vector Fields and Independence of Path. Green"s Theorem. Section Project: Hyperbolic and Trigonometric Functions. Parametric Surfaces. Surface Integrals. Section Project: Hyperboloid of One Sheet. Divergence Theorem. Stokes" Theorem. Review Exercises. Section Project: The Planimeter. P.S. Problem Solving. 16. SECOND ORDER DIFFERENTIAL EQUATIONS* ONLINE. Exact First-Order Equations. Second-Order Homogeneous Linear Equations. Second-Order Nonhomogeneous Linear Equations. Section Project: Parachute Jump. Series Solutions of Differential Equations. Review Exercises. P.S. Problem Solving. APPENDIX. A. Proofs of Selected Theorems. B. Integration Tables. C. Precalculus Review (Web). C.1. Real Numbers and the Real Number Line. C.2. The Cartesian Plane. D. Rotation and the General Second-Degree Equation (Web). E. Complex Numbers (Web). F. Business and Economic Applications (Web). G. Fitting Models to Data (Web).
- (source: Nielsen Book Data)9781337275347 20170403
(source: Nielsen Book Data)9781337275347 20170403
Science Library (Li and Ma)
Science Library (Li and Ma) | Status |
---|---|
Stacks | |
QA303.2 .L367 2018 | Unknown |
20. Campbell biology : concepts & connections [2018]
- Book
- xxxix, 783 pages, 97 variously numbered pages ; 29 cm
- 1. Biology: Exploring Life I. THE LIFE OF THE CELL 2. The Chemical Basis of Life 3. The Molecules of Cells 4. A Tour of the Cell 5. The Working Cell 6. How Cells Harvest Chemical Energy 7. Photosynthesis: Using Light to Make Food II. CELLULAR REPRODUCTION AND GENETICS 8. The Cellular Basis of Reproduction and Inheritance 9. Patterns of Inheritance 10. Molecular Biology of the Gene 11. How Genes Are Controlled 12. DNA Technology and Genomics III. CONCEPTS OF EVOLUTION 13. How Populations Evolve 14. The Origin of Species 15. Tracing Evolutionary History IV. THE EVOLUTION OF BIOLOGICAL DIVERSITY 16. Microbial Life: Prokaryotes and Protists 17. The Evolution of Plant and Fungal Diversity 18. The Evolution of Invertebrate Diversity 19. The Evolution of Vertebrate Diversity V. ANIMALS: FORM AND FUNCTION 20. Unifying Concepts of Animal Structure and Function 21. Nutrition and Digestion 22. Gas Exchange 23. Circulation 24. The Immune System 25. Control of Body Temperature and Water Balance 26. Hormones and the Endocrine System 27. Reproduction and Embryonic Development 28. Nervous Systems 29. The Senses 30. How Animals Move VI. PLANTS: FORM AND FUNCTION 31. Plant Structure, Growth, and Reproduction 32. Plant Nutrition and Transport 33. Control Systems in Plants VII. ECOLOGY 34. The Biosphere: An Introduction to Earth's Diverse Environments 35. Behavioral Adaptations to the Environment 36. Population Ecology 37. Communities and Ecosystems 38. Conservation Biology Appendix 1 Metric Conversion Table Appendix 2 The Periodic Table Appendix 3 The Amino Acids of Proteins Appendix 4 Chapter Review Answers Appendix 5 Credits Glossary Index.
- (source: Nielsen Book Data)9780134296012 20171009
(source: Nielsen Book Data)9780134296012 20171009
- 1. Biology: Exploring Life I. THE LIFE OF THE CELL 2. The Chemical Basis of Life 3. The Molecules of Cells 4. A Tour of the Cell 5. The Working Cell 6. How Cells Harvest Chemical Energy 7. Photosynthesis: Using Light to Make Food II. CELLULAR REPRODUCTION AND GENETICS 8. The Cellular Basis of Reproduction and Inheritance 9. Patterns of Inheritance 10. Molecular Biology of the Gene 11. How Genes Are Controlled 12. DNA Technology and Genomics III. CONCEPTS OF EVOLUTION 13. How Populations Evolve 14. The Origin of Species 15. Tracing Evolutionary History IV. THE EVOLUTION OF BIOLOGICAL DIVERSITY 16. Microbial Life: Prokaryotes and Protists 17. The Evolution of Plant and Fungal Diversity 18. The Evolution of Invertebrate Diversity 19. The Evolution of Vertebrate Diversity V. ANIMALS: FORM AND FUNCTION 20. Unifying Concepts of Animal Structure and Function 21. Nutrition and Digestion 22. Gas Exchange 23. Circulation 24. The Immune System 25. Control of Body Temperature and Water Balance 26. Hormones and the Endocrine System 27. Reproduction and Embryonic Development 28. Nervous Systems 29. The Senses 30. How Animals Move VI. PLANTS: FORM AND FUNCTION 31. Plant Structure, Growth, and Reproduction 32. Plant Nutrition and Transport 33. Control Systems in Plants VII. ECOLOGY 34. The Biosphere: An Introduction to Earth's Diverse Environments 35. Behavioral Adaptations to the Environment 36. Population Ecology 37. Communities and Ecosystems 38. Conservation Biology Appendix 1 Metric Conversion Table Appendix 2 The Periodic Table Appendix 3 The Amino Acids of Proteins Appendix 4 Chapter Review Answers Appendix 5 Credits Glossary Index.
- (source: Nielsen Book Data)9780134296012 20171009
(source: Nielsen Book Data)9780134296012 20171009
Science Library (Li and Ma)
Science Library (Li and Ma) | Status |
---|---|
Stacks | |
QH308.2 .B56448 2018 | Unavailable Ask at circulation desk |