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How Things Work The Physics of Everyday Life 6th Edition by Louis Bloomfield ISBN 1119013846 978-1119013846

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ISBN 10: 1119013846
ISBN 13: 978-1119013846
Author: Louis Bloomfield 

How Things Work provides an accessible introduction to physics for the non-science student. Like the previous editions it employs everyday objects, with which students are familiar, in case studies to explain the most essential physics concepts of day-to-day life. Lou Bloomfield takes seemingly highly complex devices and strips away the complexity to show how at their heart are simple physics ideas. Once these concepts are understood, they can be used to understand the behavior of many devices encountered in everyday life. The sixth edition uses the power of WileyPLUS Learning Space with Orion to give students the opportunity to actively practice the physics concepts presented in this edition.

How Things Work The Physics of Everyday Life 6th Table of contents:

Chapter 1: The Laws of Motion, Part 1

Active Learning Experiment: Removing a Tablecloth from a Table
Chapter Itinerary

  • Skating
    (inertia, coasting, vector quantities, position, velocity, force, acceleration, mass, net force, Newton’s first and second laws, inertial frames of reference, units)

  • Falling Balls
    (gravity, weight, constant acceleration, projectile motion, vector components)

  • Ramps
    (support forces, Newton’s third law, energy, work, conservation of energy, kinetic and potential energies, gravitational potential energy, ramps, mechanical advantage)
    Epilogue: Removing a Tablecloth from a Table
    Chapter Summary and Important Laws and Equations

Chapter 2: The Laws of Motion, Part 2

Active Learning Experiment: A Spinning Pie Dish
Chapter Itinerary

  • Seesaws
    (rotational inertia, angular velocity, torque, angular acceleration, rotational mass, net torque, Newton’s laws of rotation, centers of mass and gravity, levers, balance)

  • Wheels
    (friction, traction, ordered and thermal energies, wheels, bearings, kinetic energy, power, rotational work)

  • Bumper Cars
    (momentum, impulse, conservation of momentum, angular momentum, angular impulse, conservation of angular momentum, gradients, potential energy, acceleration, forces)
    Epilogue: A Spinning Pie Dish
    Chapter Summary and Important Laws and Equations

Chapter 3: Mechanical Objects, Part 1

Active Learning Experiment: Swinging Water Overhead
Chapter Itinerary

  • Spring Scales
    (equilibrium, stable equilibrium, restoring force, Hooke’s law, elastic potential energy, oscillation, calibration)

  • Ball Sports: Bouncing
    (collisions, energy transfers, elastic and inelastic collisions, vibration)

  • Carousels and Roller Coasters
    (uniform circular motion, feeling of acceleration, apparent weight, centripetal acceleration)
    Epilogue: Swinging Water Overhead
    Chapter Summary and Important Laws and Equations

Chapter 4: Mechanical Objects, Part 2

Active Learning Experiment: High-Flying Balls
Chapter Itinerary

  • Bicycles
    (stable, neutral, and unstable equilibriums, static and dynamic stability, precession)

  • Rockets and Space Travel
    (reaction forces, universal gravitation, elliptical orbits, escape velocity, Kepler’s laws, speed of light, relativity, equivalence principle)
    Epilogue: High-Flying Balls
    Chapter Summary and Important Laws and Equations

Chapter 5: Fluids

Active Learning Experiment: A Cartesian Diver
Chapter Itinerary

  • Balloons
    (pressure, density, temperature, thermal motion, absolute zero, Archimedes’ principle, buoyant force, ideal gas law)

  • Water Distribution
    (hydrostatics, Pascal’s principle, hydraulics, hydrodynamics, steady state flow, streamlines, pressure potential energy, Bernoulli’s equation)
    Epilogue: A Cartesian Diver
    Chapter Summary and Important Laws and Equations

Chapter 6: Fluids and Motion

Active Learning Experiment: A Vortex Cannon
Chapter Itinerary

  • Garden Watering
    (viscous forces, Poiseuille’s law, laminar and turbulent flows, speed and pressure in a fluid, Reynolds number, chaos, momentum in a fluid)

  • Ball Sports: Air
    (aerodynamics, lift and drag, viscous drag, pressure drag, boundary layers, stalls, Magnus and wake deflection)

  • Airplanes
    (airfoils, streamlining, lifting wings, angle of attack, induced drag, stalled wings, thrust)
    Epilogue: A Vortex Cannon
    Chapter Summary and Important Laws and Equations

Chapter 7: Heat and Phase Transitions

Active Learning Experiment: A Ruler Thermometer
Chapter Itinerary

  • Woodstoves
    (thermal energy, heat, temperature, thermal equilibrium, chemical bonds, conduction, convection, radiation, heat capacity)

  • Water, Steam, and Ice
    (phases, phase transitions, melting, freezing, condensation, evaporation, latent heat, boiling, superheating)

  • Clothing, Insulation, and Climate
    (thermal conductivity, electromagnetic spectrum, blackbody radiation, emissivity, greenhouse effect, thermal expansion)
    Epilogue: A Ruler Thermometer
    Chapter Summary and Important Laws and Equations

Chapter 8: Thermodynamics

Active Learning Experiment: Making Fog in a Bottle
Chapter Itinerary

  • Air Conditioners
    (thermodynamic laws, temperature, heat, entropy, heat pumps, efficiency)

  • Automobiles
    (heat engines, thermodynamic efficiency)
    Epilogue: Making Fog in a Bottle
    Chapter Summary and Important Laws and Equations

Chapter 9: Resonance and Mechanical Waves

Active Learning Experiment: A Singing Wineglass
Chapter Itinerary

  • Clocks
    (time and space, natural resonance, harmonic oscillators, frequency, amplitude)

  • Musical Instruments
    (sound, vibrations, modes, overtones, standing and traveling waves, Doppler effect)

  • The Sea
    (tidal forces, surface waves, dispersion, refraction, reflection, interference)
    Epilogue: A Singing Wineglass
    Chapter Summary and Important Laws and Equations

Chapter 10: Electricity

Active Learning Experiment: Moving Water without Touching It
Chapter Itinerary

  • Static Electricity
    (electric charge, Coulomb’s law, voltage, charging, conductors and insulators)

  • Xerographic Copiers
    (electric fields, discharges, induction, capacitors)

  • Flashlights
    (current, circuits, resistance, Ohm’s law, series and parallel circuits)
    Epilogue: Moving Water without Touching It
    Chapter Summary and Important Laws and Equations

Chapter 11: Magnetism and Electrodynamics

Active Learning Experiment: A Nail and Wire Electromagnet
Chapter Itinerary

  • Household Magnets
    (magnetic poles, ferromagnetism, domains, fields, flux, currents and magnetism)

  • Electric Power Distribution
    (AC/DC currents, superconductivity, induction, Lenz’s law, generators, motors)
    Epilogue: A Nail and Wire Electromagnet
    Chapter Summary and Important Laws and Equations

Chapter 12: Electromagnetic Waves

Active Learning Experiment: A Disc in the Microwave Oven
Chapter Itinerary

  • Radio
    (changing fields, electromagnetic waves, antennas, modulation, bandwidth)

  • Microwave Ovens
    (wave properties, polar molecules, Lorentz force, cyclotron motion)
    Epilogue: A Disc in the Microwave Oven
    Chapter Summary and Important Laws and Equations

Chapter 13: Light

Active Learning Experiment: Splitting the Colors of Sunlight
Chapter Itinerary

  • Sunlight
    (Rayleigh scattering, refraction, reflection, dispersion, interference, polarization)

  • Discharge Lamps
    (color vision, atomic structure, quantum physics, Planck’s constant, fluorescence)

  • LEDs and Lasers
    (band theory, p-n junctions, diodes, emission, laser amplification)
    Epilogue: Splitting the Colors of Sunlight
    Chapter Summary and Important Laws and Equations

Chapter 14: Optics and Electronics

Active Learning Experiment: Magnifying Glass Camera
Chapter Itinerary

  • Cameras
    (lenses, images, focus, f-numbers, sensor technology, vision correction)

  • Optical Recording and Communication
    (analog vs digital, diffraction, polarization, total internal reflection)

  • Audio Players
    (transistors, logic elements, amplifiers, feedback)
    Epilogue: Magnifying Glass Camera
    Chapter Summary and Important Laws and Equations

Chapter 15: Modern Physics

Active Learning Experiment: Radiation-Damaged Paper
Chapter Itinerary

  • Nuclear Weapons
    (nuclear structure, tunneling, radioactivity, fission, fusion, fallout)

  • Nuclear Reactors
    (fission control, reactor types, safety, fusion techniques)

  • Medical Imaging and Radiation
    (X-rays, photoelectric effect, antimatter, gamma rays, particle physics)
    Epilogue: Radiation-Damaged Paper
    Chapter Summary and Important Laws and Equations

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