Classical mechanics : a professor-student collaboration /

Classical Mechanics: A professor-student collaboration is a textbook tailored for undergraduate physics students embarking on a first-year module in Newtonian mechanics. This book was written as a unique collaboration between Professor Mario Campanelli and students that attended his course in Classi...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Campanelli, M. (Mario) (Editor ), Del Sordo, Antonio d'Alfonso (Editor ), Tacconis, Camilla (Editor ), Caprioglio, Enrico (Editor ), Scarpa, Lodovico (Editor ), Shabbir, Muhammad Tayyab (Editor ), Pérez García, Sheila María (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2020]
Colección:IOP ebooks. 2020 collection.
Temas:
Mechanics > Textbooks.
Physics > Textbooks.
Classical mechanics.
SCIENCE / Mechanics / General.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • 6. Centre of mass and collisions
  • 6.1. The centre of mass
  • 6.2. Collisions
  • 7. Orbits
  • 7.1. Orbital forces
  • 7.2. Circular motion approximation
  • 7.3. Motion under the inverse square law of force
  • 7.4. Orbits under an attractive force : elliptical orbits and Kepler's laws
  • 7.5. Orbits with positive energy : unbound orbits
  • 7.6. Reduced mass and the two-body problem
  • 7.7. Variable mass problems
  • 8. Rigid bodies
  • 8.1. Preliminaries
  • 8.2. Centre of mass
  • 8.3. Flat object in x-y plane
  • 8.4. General motion of a non-planar object in 3D space
  • 9. Accelerating frames of reference
  • 9.1. Fictitious forces
  • 10. Fluid mechanics
  • 10.1. Hydrostatics
  • 10.2. Hydrodynamics--fluids in motion
  • 11. Solutions to chapter 1 : mathematical preliminaries
  • 12. Solutions to chapter 2 : Newton's laws
  • 13. Selected solutions to chapter 3 : kinematic relations
  • 14. Selected solutions to chapter 4 : oscillatory motion
  • 15. Selected solutions to chapter 5 : angular momentum and central forces
  • 16. Solutions to chapter 6 : centre of mass and collisions
  • 17. Solutions to chapter 7 : orbits
  • 18. Selected solutions to chapter 8 : rigid bodies
  • 19. Selected solutions to chapter 9 : accelerating frames of reference
  • 20. Solutions to chapter 10 : fluid mechanics.
  • 1. Mathematical preliminaries
  • 1.1. Vectors
  • 1.2. Complex numbers
  • 1.3. Calculus
  • 1.4. Differential equations
  • 2. Newton's laws
  • 2.1. Newton's laws of motion
  • 2.2. The concept of force
  • 2.3. Motion under a constant force
  • 2.4. Projectiles
  • 2.5. Momentum and impulse
  • 2.6. Conservation of momentum for isolated systems
  • 3. Kinematic relations
  • 3.1. Work and energy
  • 3.2. Relationship between work and kinetic energy
  • 3.3. Power
  • 3.4. Potential energy and conservative forces
  • 4. Oscillatory motion
  • 4.1. Simple harmonic motion
  • 4.2. Damped harmonic motion
  • 4.3. Driven and damped harmonic motion
  • 4.4. Coupled oscillators
  • 5. Angular momentum and central forces
  • 5.1. Polar coordinates
  • 5.2. Circular motion
  • 5.3. Angular momentum
  • 5.4. Central forces

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