Physics, Books a la Carte Edition (5th ...5th EditionJames S. Walker Publisher: PEARSONISBN: 9780134020853
Physics, Books a la Carte Edition (5th ...
Solutions for Physics, Books a la Carte Edition (5th Edition)
Problem 1CQ:
You take your dog on a walk to a nearby park. On the way, your dog takes many short side trips to...Problem 3CQ:
An astronaut orbits Earth in the space shuttle. In one complete orbit, is the magnitude of the...Problem 4CQ:
After a tennis match the players dash to the net to congratulate one another. If they both run with...Problem 6CQ:
Is it possible for a car to circle a racetrack with constant velocity? Can it do so with constant...Problem 8CQ:
Assume that the brakes in your car create a constant deceleration, regardless of how fast you are...Problem 9CQ:
The velocity of an object is zero at a given instant of time. (a) Is it possible for the objects...Problem 10CQ:
If the velocity of an object is nonzero, can its acceleration be zero? Give an example if your...Problem 11CQ:
Is it possible for an object to have zero average velocity over a given interval of time, yet still...Problem 12CQ:
A batter hits a pop fly straight up. (a) Is the acceleration of the ball on the way up different...Problem 13CQ:
A person on a trampoline bounces straight upward with an initial speed of 4.5 m/s. What is the...Problem 14CQ:
A volcano shoots a lava bomb straight upward. Does the displacement of the lava bomb depend on (a)...Problem 1PCE:
Referring to Figure 2-27, you walk from your home to the library, then to the park. (a) What is the...Problem 2PCE:
In Figure 2-27, you walk from the park to your friends house, then back to your house. What are your...Problem 3PCE:
The two tennis players shown in Figure 2-28 walk to the net to congratulate one another. (a) Find...Problem 4PCE:
The golfer in Figure 2-29 sinks the ball in two putts, as shown. What are (a) the distance traveled...Problem 5PCE:
A jogger runs on the track shown in Figure 2-30. Neglecting the curvature of the corners, (a) what...Problem 6PCE:
Predict/Calculate A child rides a pony on a circular track whose radius is 5.25 m. (a) Find the...Problem 7PCE:
Predict/Explain You drive your car in a straight line at 15 m/s for 10 kilometers, then at 25 m/s...Problem 8PCE:
Predict/Explain You drive your car in a straight line at 15 m/s for10 minutes, then at25 m/s for...Problem 9PCE:
Usain Bolt of Jamaica set a world record in 2009 for the 200-meter dash with a time of 19.19 seconds...Problem 10PCE:
BIO Kangaroos have been clocked at speeds of 65 km/h. (a) How far can a kangaroo hop in 3.2 minutes...Problem 11PCE:
Rubber Ducks A severe storm on January 10, 1992, caused a cargo ship near the Aleutian Islands to...Problem 12PCE:
Radio waves travel at the speed of light, approximately 186,000 miles per second. How much time does...Problem 13PCE:
It was a dark and stormy night, when suddenly you saw a flash of lightning. Six and a half seconds...Problem 14PCE:
BIO Nerve Impulses The human nervous system can propagate nerve impulses at about 102 m/s. Estimate...Problem 15PCE:
A finch rides on the back of a Galapagos tortoise, which walks at the stately pace of 0.060 m/s....Problem 16PCE:
You jog at 9.1 km/h for 5.0 km, then you jump into a car and drive an additional 13 km. With what...Problem 17PCE:
A dog runs back and forth between its two owners, who are walking toward one another (Figure 2-31)....Problem 18PCE:
BIO Predict/Calculate Blood flows through a major artery at 1.0 m/s for 0.50 s, then at 0.60 m/s for...Problem 19PCE:
BIO Predict/Calculate Blood flows through a major artery at 1.0 m/s over a distance of 0.50 m, then...Problem 20PCE:
In heavy rush-hour traffic you drive in a straight line at 12 m/s for 1.5 minutes, then you have to...Problem 21PCE:
Predict/Calculate An expectant father paces back and forth, producing the position-versus-time graph...Problem 22PCE:
The position of a particle as a function of time is given by x = (5 m/s) t + (3 m/s2) t2. (a) Plot x...Problem 23PCE:
The position of a particle as a function of time is given by x = (6 m/s) t + (2 m/s2) t2. (a) Plot x...Problem 24PCE:
Predict/Calculate A tennis player moves back and forth along the baseline while waiting for her...Problem 25PCE:
On your wedding day you leave for the church 30.0 minutes before the ceremony is to begin, which...Problem 26PCE:
The position-versus-time plot of a boat positioning itself next to a dock is shown in Figure 2-34....Problem 27PCE:
The position of a particle as a function of time is given by x = (2.0 m/s) t + (3.0 m/s3) t3. (a)...Problem 28PCE:
The position of a particle as a function of time is given by x = (2.00 m/s) t + (3.00 m/s3) t3. (a)...Problem 29PCE:
Predict/Explain On two occasions you accelerate uniformly from rest along an on-ramp in order to...Problem 30PCE:
A 747 airliner reaches its takeoff speed of156 mi/h in 35.2 s. What is the magnitude of its average...Problem 31PCE:
At the starting gun, a runner accelerates at1.9 m/s2 for 5.2 s The runner's acceleration is zero for...Problem 32PCE:
A jet makes a landing traveling due east with a speed of 70.6 m/s If the jet comes to rest in 13.0...Problem 33PCE:
A car is traveling due north at 23.6 m/s. Find the velocity of the car after 7.10 s if its...Problem 34PCE:
A motorcycle moves according to the velocity-versus-time graph shown in Figure 2-35. Find the...Problem 35PCE:
A person on horseback moves according to the velocity-versus-time graph shown in Figure 2-36. Find...Problem 36PCE:
Running with an initial velocity of +9.2 m/s, a horse has an average acceleration of 1.81 m/s2 How...Problem 37PCE:
Predict/Calculate Assume that the brakes in your car create a constant deceleration of 4.2 m/s2...Problem 38PCE:
As a train accelerates away from a station, it reaches a speed of 4.7 m/s in 5.0 s. If the trains...Problem 39PCE:
A particle has an acceleration of +6.24 m/s2 for 0.450 s. At the end of this time the particles...Problem 40PCE:
Landing with a speed of 71.4 m/s, and traveling due south, a jet comes to rest in 949 m. Assuming...Problem 41PCE:
When you see a traffic light turn red, you apply the brakes until you come to a stop. If your...Problem 42PCE:
A ball is released at the point x = 2 m on an inclined plane with a nonzero initial velocity. After...Problem 43PCE:
Starting from rest, a boat increases its speed to 4.82 m/s with constant acceleration. (a) What is...Problem 44PCE:
The position of a car as a function of time is given by x = (50 m) + (5.0 m/s) t + (10 m/s2) t2 (a)...Problem 45PCE:
The position of a ball as a function of time is given by x = (5.0 m/s) t + (10 m/s2) t2. (a) What...Problem 46PCE:
BIO A cheetah can accelerate from rest to 25 0 m/s in 6.22 s. Assuming constant acceleration, (a)...Problem 47PCE:
A sled slides from rest down an icy slope. Measurements taken from a video show that the distance...Problem 48PCE:
A child slides down a hill on a toboggan with an acceleration of 1.6 m/s2. If she starts at rest,...Problem 49PCE:
The Detonator On a ride called the Detonator at Worlds of Fun in Kansas City, passengers accelerate...Problem 50PCE:
Jules Verne In his novel From the Earth to the Moon (1865), Jules Verne describes a spaceship that...Problem 51PCE:
BIO Bacterial Motion Approximately 0.1% of the bacteria in an adult humans intestines are...Problem 52PCE:
Two cars drive on a straight highway. At time t = 0, car 1 passes mile marker 0 traveling due east...Problem 53PCE:
A Meteorite Strikes On October 9, 1992, a 27-pound meteorite struck a car in Peekskill, NY, leaving...Problem 54PCE:
A rocket blasts off and moves straight upward from the launch pad with constant acceleration. After...Problem 55PCE:
Predict/Calculate You are driving through town at 12.0 m/s when suddenly a ball rolls out in front...Problem 56PCE:
Predict/Calculate You are driving through town at 16 m/s when suddenly a car backs out of a driveway...Problem 57PCE:
BIO Predict/Calculate A Tongues Acceleration When a chameleon captures an insect, its tongue can...Problem 58PCE:
BIO Surviving a Large Deceleration On July 13, 1977, while on a test drive at Britains Silverstone...Problem 59PCE:
A boat is cruising in a straight line at a constant speed of 2.6 m/s when it is shifted into...Problem 60PCE:
A model rocket rises with constant acceleration to a height of 4.2 m, at which point its speed is...Problem 61PCE:
The infamous chicken is dashing toward home plate with a speed of 5.7 m/s when he decides to hit the...Problem 62PCE:
A bicyclist is finishing his repair of a flat tire when a friend rides by with a constant speed of...Problem 63PCE:
A car in stop-and-go traffic starts at rest, moves forward 22 m in 8.0 s, then comes to rest again....Problem 64PCE:
A car and a truck are heading directly toward one another on a straight and narrow street, but they...Problem 65PCE:
Suppose you use videos to analyze the motion of penguins as they slide from rest down three...Problem 66PCE:
At the edge of a roof you throw ball 1 upward with an initial speed v0; a moment later you throw...Problem 67PCE:
A cliff diver drops from rest to the water below. How many seconds does it take for the diver to go...Problem 68PCE:
For a flourish at the end of her act, a juggler tosses a single ball high in the air. She catches...Problem 69PCE:
Soaring Shaun During the 2014 Olympic games, snowboarder Shaun White rose 6.4 m vertically above the...Problem 70PCE:
BIO Gulls are often observed dropping clams and other shellfish from a height to the rocks below, as...Problem 71PCE:
A volcano launches a lava bomb straight upward with an initial speed of 28 m/s. Taking upward to be...Problem 72PCE:
An Extraterrestrial Volcano The first active volcano observed outside the Earth was discovered in...Problem 73PCE:
BIO Measure Your Reaction Time Heres something you can try at homean experiment to measure your...Problem 74PCE:
Predict/Explain A carpenter on the roof of a building accidentally drops her hammer. As the hammer...Problem 75PCE:
Predict/Explain Figure 2-40 shows a v-versus-t plot for the hammer dropped by the carpenter in...Problem 76PCE:
A ball is thrown straight upward with an initial speed v0. When it reaches the top of its flight at...Problem 77PCE:
On a hot summer day in the state of Washington while kayaking, I saw several swimmers jump from a...Problem 78PCE:
Highest Water Fountain The USAs highest fountain of water is located, appropriately enough, in...Problem 79PCE:
Wrongly called for a foul, an angry basketball player throws the ball straight down to the floor. If...Problem 80PCE:
To celebrate a victory, a pitcher throws her glove straight upward with an initial speed of 6.5 m/s....Problem 81PCE:
Predict/Calculate Standing at the edge of a cliff 30.5 m high, you drop a ball. Later, you throw a...Problem 82PCE:
You shoot an arrow into the air. Two seconds later (2.00 s) the arrow has gone straight upward to a...Problem 83PCE:
While riding on an elevator descending with a constant speed of 3.0 m/s, you accidentally drop a...Problem 84PCE:
A hot-air balloon is descending at a rate of 2.3 m/s when a passenger drops a camera. If the camera...Problem 85PCE:
A model rocket blasts off and moves upward with an acceleration of 12 m/s2 until it reaches a height...Problem 86PCE:
BIO The southern flying squirrel (Glaucomys volans) can reduce its free-fall acceleration by...Problem 87PCE:
Hitting the High Striker A young woman at a carnival steps up to the high striker, a popular test of...Problem 88PCE:
While sitting on a tree branch 10.0 m above the ground, you drop a chestnut. When the chestnut has...Problem 89GP:
An astronaut on the Moon drops a rock straight downward from a height of 1.25 m. If the acceleration...Problem 90GP:
Taipei 101 An elevator in the Taipei 101 skyscraper can start from rest and accelerate to a maximum...Problem 91GP:
A Supersonic Waterfall Geologists have learned of periods in the past when the Strait of Gibraltar...Problem 92GP:
A juggler throws a ball straight up into the air. If the ball returns to its original position in...Problem 93GP:
CE At the edge of a roof you drop ball A from rest, and at the same instant your friend throws ball...Problem 94GP:
CE Two balls start their motion at the same time, with ball A dropped from rest and ball B thrown...Problem 95GP:
CE Refer to the position-versus-time plot in Figure 2-44 for the following questions: (a) Is the...Problem 96GP:
Drop Tower NASA operates a 2.2-second drop tower at the Glenn Research Center in Cleveland, Ohio. At...Problem 97GP:
The velocity-versus-time graph for an object moving in a straight line is given in Figure 2. (a)...Problem 98GP:
At the 13th green of the U.S. Open you need to make a 23.5-ft putt to win the tournament. When you...Problem 99GP:
A glaucous-winged gull, ascending straight upward at 5.20 m/s, drops a shell when it is 12.5 m above...Problem 100GP:
A doctor, preparing to give a patient an injection, squirts a small amount of liquid straight upward...Problem 101GP:
A hot-air balloon has just lifted off and is rising at the constant rate of 2.0 m/s. Suddenly one of...Problem 102GP:
Astronauts on a distant planet throw a rock straight upward and record its motion with a video...Problem 103GP:
BIO A Jet-Propelled Squid Squids can move through the water using a form of jet propulsion. Suppose...Problem 104GP:
A ball, dropped from rest, covers three-quarters of the distance to the ground in the last second of...Problem 105GP:
You drop a ski glove from a height h onto fresh snow, and it sinks to a depth d before coming to...Problem 106GP:
To find the height of an overhead power line, you throw a ball straight upward. The ball passes the...Problem 107GP:
Sitting in a second-story apartment, a physicist notices a ball moving straight upward just outside...Problem 108PP:
Bam!Apollo 15 Lands on the Moon The first word spoken on the surface of the Moon after Apollo 15...Problem 109PP:
Bam!Apollo 15 Lands on the Moon The first word spoken on the surface of the Moon after Apollo 15...Problem 110PP:
Bam!Apollo 15 Lands on the Moon The first word spoken on the surface of the Moon after Apollo 15...Problem 111PP:
Bam!Apollo 15 Lands on the Moon The first word spoken on the surface of the Moon after Apollo 15...Problem 112PP:
Referring to Example 2-17 Suppose the speeder (red car) is traveling with a constant speed of 25...Problem 113PP:
Referring to Example 2-17 The speeder passes the position of the police car with a constant speed of...Browse All Chapters of This Textbook
Chapter 1 - Introduction To PhysicsChapter 1.1 - Physics And The Laws Of NatureChapter 1.2 - Units Of Length, Mass, And TimeChapter 1.3 - Dimensional AnalysisChapter 1.4 - Significant Figures, Scientific Notation, And Round-Off ErrorChapter 1.5 - Converting UnitsChapter 1.6 - Order-of-Magnitude CalculationsChapter 1.7 - Scalars And VectorsChapter 2 - One-Dimensional KinematicsChapter 2.1 - Position, Distance, And Displacement
Chapter 2.2 - Average Speed And VelocityChapter 2.3 - Instantaneous VelocityChapter 2.4 - AccelerationChapter 2.5 - Motion With Constant AccelerationChapter 2.6 - Applications Of The Equations Of MotionChapter 2.7 - Freely Falling ObjectsChapter 3 - Vectors In PhysicsChapter 3.1 - Scalars Versus VectorsChapter 3.2 - The Components Of A VectorChapter 3.3 - Adding And Subtracting VectorsChapter 3.4 - Unit VectorsChapter 3.5 - Position, Displacement, Velocity, And Acceleration VectorsChapter 3.6 - Relative MotionChapter 4 - Two-Dimensional KinematicsChapter 4.1 - Motion In Two DimensionsChapter 4.2 - Projectile Motion: Basic EquationsChapter 4.3 - Zero Launch AngleChapter 4.4 - General Launch AngleChapter 4.5 - Projectile Motion: Key CharacteristicsChapter 5 - Newton’s Laws Of MotionChapter 5.1 - Force And MassChapter 5.2 - Newton’s First Law Of MotionChapter 5.3 - Newton’s Second Law Of MotionChapter 5.4 - Newton’s Third Law Of MotionChapter 5.5 - The Vector Nature Of Forces: Forces In Two DimensionsChapter 5.6 - WeightChapter 5.7 - Normal ForcesChapter 6 - Applications Of Newton’s LawsChapter 6.1 - Frictional ForcesChapter 6.2 - Strings And SpringsChapter 6.3 - Translational EquilibriumChapter 6.4 - Connected ObjectsChapter 6.5 - Circular MotionChapter 7 - Work And Kinetic EnergyChapter 7.1 - Work Done By A Constant ForceChapter 7.2 - Kinetic Energy And The Work–Energy TheoremChapter 7.3 - Work Done By A Variable ForceChapter 7.4 - PowerChapter 8 - Potential Energy And Conservation Of EnergyChapter 8.1 - Conservative And Nonconservative ForcesChapter 8.2 - Potential Energy And The Work Done By Conservative ForcesChapter 8.3 - Conservation Of Mechanical EnergyChapter 8.4 - Work Done By Nonconservative ForcesChapter 8.5 - Potential Energy Curves And EquipotentialsChapter 9 - Linear Momentum And CollisionsChapter 9.1 - Linear MomentumChapter 9.2 - Momentum And Newton’s Second LawChapter 9.3 - ImpulseChapter 9.4 - Conservation Of Linear MomentumChapter 9.5 - Inelastic CollisionsChapter 9.6 - Elastic CollisionsChapter 9.7 - Center Of MassChapter 9.8 - Systems With Changing Mass: Rocket PropulsionChapter 10 - Rotational Kinematics And EnergyChapter 10.1 - Angular Position, Velocity, And AccelerationChapter 10.2 - Rotational KinematicsChapter 10.3 - Connections Between Linear And Rotational QuantitiesChapter 10.4 - Rolling MotionChapter 10.5 - Rotational Kinetic Energy And The Moment Of InertiaChapter 10.6 - Conservation Of EnergyChapter 11 - Rotational Dynamics And Static EquilibriumChapter 11.1 - TorqueChapter 11.2 - Torque And Angular AccelerationChapter 11.3 - Zero Torque And Static EquilibriumChapter 11.4 - Center Of Mass And BalanceChapter 11.5 - Dynamic Applications Of TorqueChapter 11.6 - Angular MomentumChapter 11.7 - Conservation Of Angular MomentumChapter 11.8 - Rotational Work And PowerChapter 11.9 - The Vector Nature Of Rotational MotionChapter 12 - GravityChapter 12.1 - Newton’s Law Of Universal GravitationChapter 12.2 - Gravitational Attraction Of Spherical BodiesChapter 12.3 - Kepler’s Laws Of Orbital MotionChapter 12.4 - Gravitational Potential EnergyChapter 12.5 - Energy ConservationChapter 12.6 - TidesChapter 13 - Oscillations About EquilibriumChapter 13.1 - Periodic MotionChapter 13.2 - Simple Harmonic MotionChapter 13.3 - Connections Between Uniform Circular Motion And Simple Harmonic MotionChapter 13.4 - The Period Of A Mass On A SpringChapter 13.5 - Energy Conservation In Oscillatory MotionChapter 13.6 - The PendulumChapter 13.7 - Damped OscillationsChapter 13.8 - Driven Oscillations And ResonanceChapter 14 - Waves And SoundChapter 14.1 - Types Of WavesChapter 14.2 - Waves On A StringChapter 14.3 - Harmonic Wave FunctionsChapter 14.4 - Sound WavesChapter 14.5 - Sound IntensityChapter 14.6 - The Doppler EffectChapter 14.7 - Superposition And InterferenceChapter 14.8 - Standing WavesChapter 14.9 - BeatsChapter 15 - FluidsChapter 15.1 - DensityChapter 15.2 - PressureChapter 15.3 - Static Equilibrium In Fluids: Pressure And DepthChapter 15.4 - Archimedes’ Principle And BuoyancyChapter 15.5 - Applications Of Archimedes’ PrincipleChapter 15.6 - Fluid Flow And ContinuityChapter 15.7 - Bernoulli’s EquationChapter 15.8 - Applications Of Bernoulli’s EquationChapter 15.9 - Viscosity And Surface TensionChapter 16 - Temperature And HeatChapter 16.1 - Temperature And The Zeroth Law Of ThermodynamicsChapter 16.2 - Temperature ScalesChapter 16.3 - Thermal ExpansionChapter 16.4 - Heat And Mechanical WorkChapter 16.5 - Specific HeatsChapter 16.6 - Conduction, Convection, And RadiationChapter 17 - Phases And Phase ChangesChapter 17.1 - Ideal GasesChapter 17.2 - The Kinetic Theory Of GasesChapter 17.3 - Solids And Elastic DeformationChapter 17.4 - Phase Equilibrium And EvaporationChapter 17.5 - Latent HeatsChapter 17.6 - Phase Changes And Energy ConservationChapter 18 - The Laws Of ThermodynamicsChapter 18.1 - The Zeroth Law Of ThermodynamicsChapter 18.2 - The First Law Of ThermodynamicsChapter 18.3 - Thermal ProcessesChapter 18.4 - Specific Heats For An Ideal Gas: Constant Pressure, Constant VolumeChapter 18.5 - The Second Law Of ThermodynamicsChapter 18.6 - Heat Engines And The Carnot CycleChapter 18.7 - Refrigerators, Air Conditioners, And Heat PumpsChapter 18.8 - EntropyChapter 18.9 - Order, Disorder, And EntropyChapter 18.10 - The Third Law Of ThermodynamicsChapter 19 - Electric Charges, Forces, And FieldsChapter 19.1 - Electric ChargeChapter 19.2 - Insulators And ConductorsChapter 19.3 - Coulomb’s LawChapter 19.4 - The Electric FieldChapter 19.5 - Electric Field LinesChapter 19.6 - Shielding And Charging By InductionChapter 19.7 - Electric Flux And Gauss’s LawChapter 20 - Electric Potential And Electric Potential EnergyChapter 20.1 - Electric Potential Energy And The Electric PotentialChapter 20.2 - Energy ConservationChapter 20.3 - The Electric Potential Of Point ChargesChapter 20.4 - Equipotential Surfaces And The Electric FieldChapter 20.5 - Capacitors And DielectricsChapter 20.6 - Electrical Energy StorageChapter 21 - Electric Current And Direct-Current CircuitsChapter 21.1 - Electric CurrentChapter 21.2 - Resistance And Ohm’s LawChapter 21.3 - Energy And Power In Electric CircuitsChapter 21.4 - Resistors In Series And ParallelChapter 21.5 - Kirchhoff’s RulesChapter 21.6 - Circuits Containing CapacitorsChapter 21.7 - Rc CircuitsChapter 22 - MagnetismChapter 22.1 - The Magnetic FieldChapter 22.2 - The Magnetic Force On Moving ChargesChapter 22.3 - The Motion Of Charged Particles In A Magnetic FieldChapter 22.4 - The Magnetic Force Exerted On A Current-Carrying WireChapter 22.5 - Loops Of Current And Magnetic TorqueChapter 22.6 - Electric Currents, Magnetic Fields, And Ampère’s LawChapter 22.7 - Current Loops And SolenoidsChapter 23 - Magnetic Flux And Faraday’s Law Of InductionChapter 23.1 - Induced Electromotive ForceChapter 23.2 - Magnetic FluxChapter 23.3 - Faraday’s Law Of InductionChapter 23.4 - Lenz’s LawChapter 23.5 - Mechanical Work And Electrical EnergyChapter 23.6 - Generators And MotorsChapter 23.7 - InductanceChapter 23.8 - Rl CircuitsChapter 23.9 - Energy Stored In A Magnetic FieldChapter 23.10 - TransformersChapter 24 - Alternating-Current CircuitsChapter 24.1 - Alternating Voltages And CurrentsChapter 24.2 - Capacitors In Ac CircuitsChapter 24.3 - Rc CircuitsChapter 24.4 - Inductors In Ac CircuitsChapter 24.5 - Rlc CircuitsChapter 24.6 - Resonance In Electric CircuitsChapter 25 - Electromagnetic WaveChapter 25.1 - The Production Of Electromagnetic WavesChapter 25.2 - The Propagation Of Electromagnetic WavesChapter 25.3 - The Electromagnetic SpectrumChapter 25.4 - Energy And Momentum In Electromagnetic WavesChapter 25.5 - PolarizationChapter 26 - Geometrical OpticsChapter 26.1 - The Reflection Of LightChapter 26.2 - Forming Images With A Plane MirrorChapter 26.3 - Spherical MirrorsChapter 26.4 - Ray Tracing And The Mirror EquationChapter 26.5 - The Refraction Of LightChapter 26.6 - Ray Tracing For LensesChapter 26.7 - The Thin-Lens EquationChapter 26.8 - Dispersion And The RainbowChapter 27 - Optical InstrumentsChapter 27.1 - The Human Eye And The CameraChapter 27.2 - Lenses In Combination And Corrective OpticsChapter 27.3 - The Magnifying GlassChapter 27.4 - The Compound MicroscopeChapter 27.5 - TelescopesChapter 27.6 - Lens AberrationsChapter 28 - Physical Optics: Interference And DiffractionChapter 28.1 - Superposition And InterferenceChapter 28.2 - Young’s Two-slit ExperimentChapter 28.3 - Interference In Reflected WavesChapter 28.4 - DiffractionChapter 28.5 - ResolutionChapter 28.6 - Diffraction GratingsChapter 29 - RelativityChapter 29.1 - The Postulates Of Special RelativityChapter 29.2 - The Relativity Of Time And Time DilationChapter 29.3 - The Relativity Of Length And Length ContractionChapter 29.4 - The Relativistic Addition Of VelocitiesChapter 29.5 - Relativistic MomentumChapter 29.6 - Relativistic Energy And E=mc2Chapter 29.7 - The Relativistic UniverseChapter 29.8 - General RelativityChapter 30 - Quantum PhysicsChapter 30.1 - Blackbody Radiation And Planck’s Hypothesis Of Quantized EnergyChapter 30.2 - Photons And The Photoelectric EffectChapter 30.3 - The Mass And Momentum Of A PhotonChapter 30.4 - Photon Scattering And The Compton EffectChapter 30.5 - The De Broglie Hypothesis And Wave–Particle DualityChapter 30.6 - The Heisenberg Uncertainty PrincipleChapter 30.7 - Quantum TunnelingChapter 31 - Atomic PhysicsChapter 31.1 - Early Models Of The AtomChapter 31.2 - The Spectrum Of Atomic HydrogenChapter 31.3 - Bohr’s Model Of The Hydrogen AtomChapter 31.4 - De Broglie Waves And The Bohr ModelChapter 31.5 - The Quantum Mechanical Hydrogen AtomChapter 31.6 - Multielectron Atoms And The Periodic TableChapter 31.7 - Atomic RadiationChapter 32 - Nuclear Physics And Nuclear RadiationChapter 32.1 - The Constituents And Structure Of NucleiChapter 32.2 - RadioactivityChapter 32.3 - Half-Life And Radioactive DatingChapter 32.4 - Nuclear Binding EnergyChapter 32.5 - Nuclear FissionChapter 32.6 - Nuclear FusionChapter 32.7 - Practical Applications Of Nuclear PhysicsChapter 32.8 - Elementary ParticlesChapter 32.9 - Unified Forces And Cosmology
Sample Solutions for this Textbook
We offer sample solutions for Physics, Books a la Carte Edition (5th Edition) homework problems. See examples below:
Chapter 1, Problem 1CQChapter 2, Problem 1CQChapter 3, Problem 1CQChapter 4, Problem 1CQChapter 5, Problem 1CQChapter 6, Problem 1CQChapter 7, Problem 1CQChapter 8, Problem 1CQChapter 9, Problem 1CQ
Chapter 10, Problem 1CQChapter 11, Problem 1CQChapter 12, Problem 1CQChapter 13, Problem 1CQChapter 14, Problem 1CQChapter 15, Problem 1CQExplanation: If there is no temperature difference between two physically contacted substances or...Chapter 17, Problem 1CQExplanation: The formula to calculate the amount of heat is, Q=ΔU+W Here, ΔU is the change in the...Chapter 19, Problem 1CQChapter 20, Problem 1CQChapter 21, Problem 1CQChapter 22, Problem 1CQChapter 23, Problem 1CQChapter 24, Problem 1CQChapter 25, Problem 1CQChapter 26, Problem 1CQExplanation: The human eye feel relaxed when the viewing object is at least 6 m away but when we...Explanation: When two light waves interfere destructively, then the net energy of the resultant wave...Chapter 29, Problem 1CQExplanation: Ultraviolet Catastrophe is a classical prediction and is also known as Rayleigh–Jeans...Explanation: Rutherford struck alpha particles with a thin sheet of golf foil in order to find out...Explanation: Nucleus A and nucleus B have different number of protons and neutrons. The formula to...
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Coursecompass(tm), Student Access Kit, Physics
3rd Edition
ISBN: 9780131536401
Physics (3rd International Edition)
3rd Edition
ISBN: 9780132270199
Physics
3rd Edition
ISBN: 9780136130833
Physics: Ap Edition
3rd Edition
ISBN: 9780131960671
Physics
4th Edition
ISBN: 9780321611116
Physics: 1
4th Edition
ISBN: 9780321611130
Physics, Technology Update
4th Edition
ISBN: 9780321903082
Pearson Physics
14th Edition
ISBN: 9780131371156
Physics
4th Edition
ISBN: 9780321905116
Physics Technology Update, Books a la Carte Plus MasteringPhysics with eText -- Access Card Package (4th Edition)
4th Edition
ISBN: 9780134142616
Physics With Masteringphysics (4th Edition)
4th Edition
ISBN: 9780321541635
PHYSICS VOL. 2 >C<
4th Edition
ISBN: 9781323454367
Physics Technology Update + MasteringPhysics With eBook Access Card
4th Edition
ISBN: 9780321903037
Mastering Physics for Pearson Physics - 1st edition
13th Edition
ISBN: 9781269220866
Physics
4th Edition
ISBN: 9780321905109
Physics
4th Edition
ISBN: 9780321601001
Mastering Physics With Pearson Etext Student Access Kit For Physics (4th Edition)
4th Edition
ISBN: 9780321641328
Physics Technology Update Volume 1; Modified Masteringphysics With Pearson Etext -- Valuepack Access Card -- For Physics Technology Update (4th Edition)
4th Edition
ISBN: 9780134382463
Physics Technology Update, Books A La Carte Edition (4th Edition)
4th Edition
ISBN: 9780321904997
Physics Technology Update, Masteringphysics With Etext And Access Card (4th Edition)
4th Edition
ISBN: 9780321975393
Physics Technology Update: Pearson New International Edition
4th Edition
ISBN: 9781292021003
Physics Vol. 2 (4th Edition)
4th Edition
ISBN: 9780321611123
Physics -ap Edition (nasta Edition )
4th Edition
ISBN: 9780137007349
Physics Technology Update Plus Masteringphysics With Etext -- Access Card Package (4th Edition)
4th Edition
ISBN: 9780134142623
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