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Principles of Applied Mathematics /:

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Bibliographische Detailangaben
1. Verfasser:	Borres, Maria Catherine
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Oakville, ON : Arcler Press, 2019.
Schlagworte:	Mathematics. Mathematics Mathématiques.
Online-Zugang:	Volltext
Beschreibung:	7.18. Collision of Two Sphere And Coefficient of Restitution
Beschreibung:	1 online resource (457 pages)
Bibliographie:	Includes bibliographical references and index.
ISBN:	1773615769 9781773615769

Internformat

MARC


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505	0		\|a Cover; Half Title Page; Title Page; Copyright Page; About the Author; Table of Contents; Preface; Chapter 1 Basic Concepts of Analytic Geometry; 1.1. Introduction; 1.2. Distance Between Two Points; 1.3. Equations of A Straight Line; 1.4. Direction Angles of A Vector; 1.5. Angle Between Two Straight Lines; 1.6. Distance of A Point From A Line; 1.7. Equations For Planes; 1.8. Plane Through Three Given Non-Collinear Points; 1.9. Angle Between Two Planes; 1.10. Straight Lines As Intersection of Two Planes; 1.11. A Straight Line And A Plane; Chapter 2 Functions of Several Variables
505	8		\|a 2.1. Introduction2.2. Homogeneous Functions; 2.3. Differentials; 2.4. Change of Variable: The Chain Rule; 2.5. Implicit Functions; 2.6. Direction Derivatives; 2.7. Tangent Planes And Normal Lines; 2.8. Extrema of Function of Two Variables; 2.9. Extrema With Constraints; 2.10. Area of Surface of Revolution; 2.11. Volume And Area In Polar Coordinates; Chapter 3 Application of Friction; 3.1. Introduction; 3.2. Types of Friction; 3.3. Law of Friction; 3.4. Coefficient of Friction; 3.5. Angle of Friction; 3.6. Cone of Friction; 3.7. Equilibrium of A Particular on Rough Horizontal Plane
505	8		\|a Chapter 4 Applications of Kinematics, Virtual Work, And Rectilinear Motion4.1. Work Done by A Force; 4.2. Work Done by The Weight W; 4.3. Work Done by Tension of An Extensible Light String; 4.4. Work Done by A Force During A Rotation; 4.5. Work Done by A Couple; 4.6. Virtual Displacement And Virtual Work; 4.7. Constant; 4.8. The Principle of Virtual Work For A Single Particle; 4.9. The Principle of Virtual Work For Set Particles; 4.10. The Principle of Virtual Work of A Single Rigid Body; 4.11. The Principle of Virtual Work For A Set of Rigid Bodies; 4.12. Kinematics
505	8		\|a 4.13. Cartesian Component of Velocity And Acceleration4.14. Radial And Transverse Component of Velocity And Acceleration; 4.15. Tangential And Normal Components of Velocity And Acceleration; 4.16. Relative Velocity; 4.17. Angular Velocity; 4.18. Rectilinear Motion; Chapter 5 Projectile Motion; 5.1. Projectile; 5.2. Equation of The Trajectory of A Projectile; 5.3. Range In Inclined Plane; 5.4. Parabola If Safety; 5.5. Projection With Air Resistance; Chapter 6 Harmonic Oscillation; 6.1. Simple Harmonic Motion; 6.2. Nature of Simple Harmonic Motion; 6.3. Damped Harmonic Oscillator
505	8		\|a Chapter 7 Central Force and Applications7.1. Central Force; 7.2. Properties; 7.3. Differential Equation of The Orbit In Polar Form; 7.4. Differential Equation of The Orbit In Pedal Form; 7.5. Apse And Apsidal Distance; 7.6. Areal Velocity; 7.7. Periodic Time; 7.8. Kepler's Laws; 7.9. Derivation of Newton's Law of Gravitation From Kepler's Laws; 7.10. Derivation of Kepler's Laws; 7.11. Collisions: Theory of Collision; 7.12. Linear Momentum of A Particle; 7.13. Angular Momentum; 7.14. Principal of Linear Momentum; 7.15. The Principle of Angular Momentum; 7.16. Impulse; 7.17. Impulse Force
500			\|a 7.18. Collision of Two Sphere And Coefficient of Restitution
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contents	Cover; Half Title Page; Title Page; Copyright Page; About the Author; Table of Contents; Preface; Chapter 1 Basic Concepts of Analytic Geometry; 1.1. Introduction; 1.2. Distance Between Two Points; 1.3. Equations of A Straight Line; 1.4. Direction Angles of A Vector; 1.5. Angle Between Two Straight Lines; 1.6. Distance of A Point From A Line; 1.7. Equations For Planes; 1.8. Plane Through Three Given Non-Collinear Points; 1.9. Angle Between Two Planes; 1.10. Straight Lines As Intersection of Two Planes; 1.11. A Straight Line And A Plane; Chapter 2 Functions of Several Variables 2.1. Introduction2.2. Homogeneous Functions; 2.3. Differentials; 2.4. Change of Variable: The Chain Rule; 2.5. Implicit Functions; 2.6. Direction Derivatives; 2.7. Tangent Planes And Normal Lines; 2.8. Extrema of Function of Two Variables; 2.9. Extrema With Constraints; 2.10. Area of Surface of Revolution; 2.11. Volume And Area In Polar Coordinates; Chapter 3 Application of Friction; 3.1. Introduction; 3.2. Types of Friction; 3.3. Law of Friction; 3.4. Coefficient of Friction; 3.5. Angle of Friction; 3.6. Cone of Friction; 3.7. Equilibrium of A Particular on Rough Horizontal Plane Chapter 4 Applications of Kinematics, Virtual Work, And Rectilinear Motion4.1. Work Done by A Force; 4.2. Work Done by The Weight W; 4.3. Work Done by Tension of An Extensible Light String; 4.4. Work Done by A Force During A Rotation; 4.5. Work Done by A Couple; 4.6. Virtual Displacement And Virtual Work; 4.7. Constant; 4.8. The Principle of Virtual Work For A Single Particle; 4.9. The Principle of Virtual Work For Set Particles; 4.10. The Principle of Virtual Work of A Single Rigid Body; 4.11. The Principle of Virtual Work For A Set of Rigid Bodies; 4.12. Kinematics 4.13. Cartesian Component of Velocity And Acceleration4.14. Radial And Transverse Component of Velocity And Acceleration; 4.15. Tangential And Normal Components of Velocity And Acceleration; 4.16. Relative Velocity; 4.17. Angular Velocity; 4.18. Rectilinear Motion; Chapter 5 Projectile Motion; 5.1. Projectile; 5.2. Equation of The Trajectory of A Projectile; 5.3. Range In Inclined Plane; 5.4. Parabola If Safety; 5.5. Projection With Air Resistance; Chapter 6 Harmonic Oscillation; 6.1. Simple Harmonic Motion; 6.2. Nature of Simple Harmonic Motion; 6.3. Damped Harmonic Oscillator Chapter 7 Central Force and Applications7.1. Central Force; 7.2. Properties; 7.3. Differential Equation of The Orbit In Polar Form; 7.4. Differential Equation of The Orbit In Pedal Form; 7.5. Apse And Apsidal Distance; 7.6. Areal Velocity; 7.7. Periodic Time; 7.8. Kepler's Laws; 7.9. Derivation of Newton's Law of Gravitation From Kepler's Laws; 7.10. Derivation of Kepler's Laws; 7.11. Collisions: Theory of Collision; 7.12. Linear Momentum of A Particle; 7.13. Angular Momentum; 7.14. Principal of Linear Momentum; 7.15. The Principle of Angular Momentum; 7.16. Impulse; 7.17. Impulse Force
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spelling	Borres, Maria Catherine. Principles of Applied Mathematics / Maria Catherine Borres. Oakville, ON : Arcler Press, 2019. 1 online resource (457 pages) text txt rdacontent computer c rdamedia online resource cr rdacarrier Includes bibliographical references and index. Print version record. Cover; Half Title Page; Title Page; Copyright Page; About the Author; Table of Contents; Preface; Chapter 1 Basic Concepts of Analytic Geometry; 1.1. Introduction; 1.2. Distance Between Two Points; 1.3. Equations of A Straight Line; 1.4. Direction Angles of A Vector; 1.5. Angle Between Two Straight Lines; 1.6. Distance of A Point From A Line; 1.7. Equations For Planes; 1.8. Plane Through Three Given Non-Collinear Points; 1.9. Angle Between Two Planes; 1.10. Straight Lines As Intersection of Two Planes; 1.11. A Straight Line And A Plane; Chapter 2 Functions of Several Variables 2.1. Introduction2.2. Homogeneous Functions; 2.3. Differentials; 2.4. Change of Variable: The Chain Rule; 2.5. Implicit Functions; 2.6. Direction Derivatives; 2.7. Tangent Planes And Normal Lines; 2.8. Extrema of Function of Two Variables; 2.9. Extrema With Constraints; 2.10. Area of Surface of Revolution; 2.11. Volume And Area In Polar Coordinates; Chapter 3 Application of Friction; 3.1. Introduction; 3.2. Types of Friction; 3.3. Law of Friction; 3.4. Coefficient of Friction; 3.5. Angle of Friction; 3.6. Cone of Friction; 3.7. Equilibrium of A Particular on Rough Horizontal Plane Chapter 4 Applications of Kinematics, Virtual Work, And Rectilinear Motion4.1. Work Done by A Force; 4.2. Work Done by The Weight W; 4.3. Work Done by Tension of An Extensible Light String; 4.4. Work Done by A Force During A Rotation; 4.5. Work Done by A Couple; 4.6. Virtual Displacement And Virtual Work; 4.7. Constant; 4.8. The Principle of Virtual Work For A Single Particle; 4.9. The Principle of Virtual Work For Set Particles; 4.10. The Principle of Virtual Work of A Single Rigid Body; 4.11. The Principle of Virtual Work For A Set of Rigid Bodies; 4.12. Kinematics 4.13. Cartesian Component of Velocity And Acceleration4.14. Radial And Transverse Component of Velocity And Acceleration; 4.15. Tangential And Normal Components of Velocity And Acceleration; 4.16. Relative Velocity; 4.17. Angular Velocity; 4.18. Rectilinear Motion; Chapter 5 Projectile Motion; 5.1. Projectile; 5.2. Equation of The Trajectory of A Projectile; 5.3. Range In Inclined Plane; 5.4. Parabola If Safety; 5.5. Projection With Air Resistance; Chapter 6 Harmonic Oscillation; 6.1. Simple Harmonic Motion; 6.2. Nature of Simple Harmonic Motion; 6.3. Damped Harmonic Oscillator Chapter 7 Central Force and Applications7.1. Central Force; 7.2. Properties; 7.3. Differential Equation of The Orbit In Polar Form; 7.4. Differential Equation of The Orbit In Pedal Form; 7.5. Apse And Apsidal Distance; 7.6. Areal Velocity; 7.7. Periodic Time; 7.8. Kepler's Laws; 7.9. Derivation of Newton's Law of Gravitation From Kepler's Laws; 7.10. Derivation of Kepler's Laws; 7.11. Collisions: Theory of Collision; 7.12. Linear Momentum of A Particle; 7.13. Angular Momentum; 7.14. Principal of Linear Momentum; 7.15. The Principle of Angular Momentum; 7.16. Impulse; 7.17. Impulse Force 7.18. Collision of Two Sphere And Coefficient of Restitution Mathematics. http://id.loc.gov/authorities/subjects/sh85082139 Mathematics https://id.nlm.nih.gov/mesh/D008433 Mathématiques. Mathematics fast Print version: Borres, Maria Catherine. Principles of Applied Mathematics. Ashland : Arcler Press, ©2019 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2013887 Volltext
spellingShingle	Borres, Maria Catherine Principles of Applied Mathematics / Cover; Half Title Page; Title Page; Copyright Page; About the Author; Table of Contents; Preface; Chapter 1 Basic Concepts of Analytic Geometry; 1.1. Introduction; 1.2. Distance Between Two Points; 1.3. Equations of A Straight Line; 1.4. Direction Angles of A Vector; 1.5. Angle Between Two Straight Lines; 1.6. Distance of A Point From A Line; 1.7. Equations For Planes; 1.8. Plane Through Three Given Non-Collinear Points; 1.9. Angle Between Two Planes; 1.10. Straight Lines As Intersection of Two Planes; 1.11. A Straight Line And A Plane; Chapter 2 Functions of Several Variables 2.1. Introduction2.2. Homogeneous Functions; 2.3. Differentials; 2.4. Change of Variable: The Chain Rule; 2.5. Implicit Functions; 2.6. Direction Derivatives; 2.7. Tangent Planes And Normal Lines; 2.8. Extrema of Function of Two Variables; 2.9. Extrema With Constraints; 2.10. Area of Surface of Revolution; 2.11. Volume And Area In Polar Coordinates; Chapter 3 Application of Friction; 3.1. Introduction; 3.2. Types of Friction; 3.3. Law of Friction; 3.4. Coefficient of Friction; 3.5. Angle of Friction; 3.6. Cone of Friction; 3.7. Equilibrium of A Particular on Rough Horizontal Plane Chapter 4 Applications of Kinematics, Virtual Work, And Rectilinear Motion4.1. Work Done by A Force; 4.2. Work Done by The Weight W; 4.3. Work Done by Tension of An Extensible Light String; 4.4. Work Done by A Force During A Rotation; 4.5. Work Done by A Couple; 4.6. Virtual Displacement And Virtual Work; 4.7. Constant; 4.8. The Principle of Virtual Work For A Single Particle; 4.9. The Principle of Virtual Work For Set Particles; 4.10. The Principle of Virtual Work of A Single Rigid Body; 4.11. The Principle of Virtual Work For A Set of Rigid Bodies; 4.12. Kinematics 4.13. Cartesian Component of Velocity And Acceleration4.14. Radial And Transverse Component of Velocity And Acceleration; 4.15. Tangential And Normal Components of Velocity And Acceleration; 4.16. Relative Velocity; 4.17. Angular Velocity; 4.18. Rectilinear Motion; Chapter 5 Projectile Motion; 5.1. Projectile; 5.2. Equation of The Trajectory of A Projectile; 5.3. Range In Inclined Plane; 5.4. Parabola If Safety; 5.5. Projection With Air Resistance; Chapter 6 Harmonic Oscillation; 6.1. Simple Harmonic Motion; 6.2. Nature of Simple Harmonic Motion; 6.3. Damped Harmonic Oscillator Chapter 7 Central Force and Applications7.1. Central Force; 7.2. Properties; 7.3. Differential Equation of The Orbit In Polar Form; 7.4. Differential Equation of The Orbit In Pedal Form; 7.5. Apse And Apsidal Distance; 7.6. Areal Velocity; 7.7. Periodic Time; 7.8. Kepler's Laws; 7.9. Derivation of Newton's Law of Gravitation From Kepler's Laws; 7.10. Derivation of Kepler's Laws; 7.11. Collisions: Theory of Collision; 7.12. Linear Momentum of A Particle; 7.13. Angular Momentum; 7.14. Principal of Linear Momentum; 7.15. The Principle of Angular Momentum; 7.16. Impulse; 7.17. Impulse Force Mathematics. http://id.loc.gov/authorities/subjects/sh85082139 Mathematics https://id.nlm.nih.gov/mesh/D008433 Mathématiques. Mathematics fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85082139 https://id.nlm.nih.gov/mesh/D008433
title	Principles of Applied Mathematics /
title_auth	Principles of Applied Mathematics /
title_exact_search	Principles of Applied Mathematics /
title_full	Principles of Applied Mathematics / Maria Catherine Borres.
title_fullStr	Principles of Applied Mathematics / Maria Catherine Borres.
title_full_unstemmed	Principles of Applied Mathematics / Maria Catherine Borres.
title_short	Principles of Applied Mathematics /
title_sort	principles of applied mathematics
topic	Mathematics. http://id.loc.gov/authorities/subjects/sh85082139 Mathematics https://id.nlm.nih.gov/mesh/D008433 Mathématiques. Mathematics fast
topic_facet	Mathematics. Mathematics Mathématiques.
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2013887
work_keys_str_mv	AT borresmariacatherine principlesofappliedmathematics

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