Physics - 10th Edition - by David Young, Shane Stadler - ISBN 9781118486894

Physics
10th Edition
David Young, Shane Stadler
Publisher: WILEY
ISBN: 9781118486894

Solutions for Physics

Solutions are available for other sections.

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Chapter 2.4 - Equations Of Kinematics For Constant AccelerationChapter 2.6 - Freely Falling BodiesChapter 3 - Kinematics In Two DimensionsChapter 3.1 - Displacement, Velocity, And AccelerationChapter 3.2 - Equations Of Kinematics In Two DimensionsChapter 3.3 - Projectile MotionChapter 3.4 - Relative VelocityChapter 4 - Forces And Newton’s Laws Of MotionChapter 4.2 - Newton’s First Law Of MotionChapter 4.3 - Newton’s Second Law Of MotionChapter 4.4 - The Vector Nature Of Newton’s Second Law Of MotionChapter 4.5 - Newton’s Third Law Of MotionChapter 4.7 - The Gravitational ForceChapter 4.8 - The Normal ForceChapter 4.9 - Static And Kinetic Frictional ForcesChapter 4.10 - The Tension ForceChapter 4.11 - Equilibrium Applications Of Newton’s Laws Of MotionChapter 4.12 - Nonequilibrium Applications Of Newton’s Laws Of MotionChapter 5 - Dynamics Of Uniform Circular MotionChapter 5.2 - Centripetal AccelerationChapter 5.3 - Centripetal ForceChapter 5.4 - Banked CurvesChapter 5.5 - Satellites In Circular OrbitsChapter 5.6 - Apparent Weightlessness And Artifi Cial GravityChapter 5.7 - Vertical Circular MotionChapter 6 - Work And EnergyChapter 6.1 - Work Done By A Constant ForceChapter 6.2 - The Work–Energy Theorem And Kinetic EnergyChapter 6.3 - Gravitational Potential EnergyChapter 6.5 - The Conservation Of Mechanical EnergyChapter 6.6 - Nonconservative Forces And The Work–Energy TheoremChapter 6.7 - PowerChapter 7 - Impulse And MomentumChapter 7.1 - The Impulse–Momentum TheoremChapter 7.2 - The Principle Of Conservation Of Linear MomentumChapter 7.3 - Collisions In One DimensionChapter 7.5 - Center Of MassChapter 8 - Rotational KinematicsChapter 8.1 - Rotational Motion And Angular DisplacementChapter 8.2 - Angular Velocity And Angular AccelerationChapter 8.3 - The Equations Of Rotational KinematicsChapter 8.4 - Angular Variables And Tangential VariablesChapter 8.5 - Centripetal Acceleration And Tangential AccelerationChapter 8.6 - Rolling MotionChapter 9 - Rotational DynamicsChapter 9.1 - The Action Of Forces And Torques On Rigid ObjectsChapter 9.2 - Rigid Objects In EquilibriumChapter 9.3 - Center Of GravityChapter 9.4 - Newton’s Second Law For Rotational Motion About A Fixed AxisChapter 10 - Simple Harmonic Motion And ElasticityChapter 10.1 - The Ideal Spring And Simple Harmonic MotionChapter 10.2 - Simple Harmonic Motion And The Reference CircleChapter 10.3 - Energy And Simple Harmonic MotionChapter 10.4 - The PendulumChapter 10.5 - Damped Harmonic MotionChapter 10.6 - Driven Harmonic Motion And ResonanceChapter 10.7 - Elastic DeformationChapter 10.8 - Stress, Strain, And Hooke’s LawChapter 11 - FluidsChapter 11.2 - PressureChapter 11.3 - Pressure And Depth In A Static FluidChapter 11.6 - Archimedes’ PrincipleChapter 11.7 - Fluids In MotionChapter 11.10 - Applications Of Bernoulli’s EquationChapter 12 - Temperature And HeatChapter 12.1 - Common Temperature ScalesChapter 12.4 - Linear Thermal ExpansionChapter 12.5 - Volume Thermal ExpansionChapter 12.7 - Heat And Temperature Change: Specifi C Heat CapacityChapter 12.8 - Heat And Phase Change: Latent HeatChapter 12.9 - Equilibrium Between Phases Of MatterChapter 12.10 - HumidityChapter 13 - The Transfer Of HeatChapter 13.1 - ConvectionChapter 13.2 - ConductionChapter 13.3 - RadiationChapter 14 - The Ideal Gas Law And Kinetic TheoryChapter 14.1 - Molecular Mass, The Mole, And Avogadro’s NumberChapter 14.2 - The Ideal Gas LawChapter 14.3 - Kinetic Theory Of GasesChapter 14.4 - DiffusionChapter 15 - ThermodynamicsChapter 15.3 - The First Law Of ThermodynamicsChapter 15.4 - Thermal ProcessesChapter 15.5 - Thermal Processes Using An Ideal GasChapter 15.6 - Specifi C Heat CapacitiesChapter 15.10 - Refrigerators, Air Conditioners, And Heat PumpsChapter 15.11 - EntropyChapter 15.12 - The Third Law Of ThermodynamicsChapter 16 - Waves And SoundChapter 16.1 - The Nature Of WavesChapter 16.2 - Periodic WavesChapter 16.3 - The Speed Of A Wave On A StringChapter 16.5 - The Nature Of SoundChapter 16.6 - The Speed Of SoundChapter 16.7 - Sound IntensityChapter 16.8 - DecibelsChapter 16.9 - The Doppler EffectChapter 17 - The Principle Of Linear Superposition And Interference PhenomenaChapter 17.2 - Constructive And Destructive Interference Of Sound WavesChapter 17.3 - DiffractionChapter 17.4 - BeatsChapter 17.5 - Transverse Standing WavesChapter 17.6 - Longitudinal Standing WavesChapter 18 - Electric Forces And Electric FieldsChapter 18.2 - Charged Objects And The Electric ForceChapter 18.4 - Charging By Contact And By InductionChapter 18.5 - Coulomb’s LawChapter 18.6 - The Electric FieldChapter 18.7 - Electric Field LinesChapter 18.9 - Gauss’ LawChapter 19 - Electric Potential Energy And The Electric PotentialChapter 19.2 - The Electric Potential DifferenceChapter 19.3 - The Electric Potential Difference Created By Point ChargesChapter 19.4 - Equipotential Surfaces And Their Relation To The Electric FieldChapter 20 - Electric CircuitsChapter 20.2 - Ohm’s LawChapter 20.3 - Resistance And ResistivityChapter 20.4 - Electric PowerChapter 20.5 - Alternating CurrentChapter 20.6 - Series WiringChapter 20.7 - Parallel WiringChapter 20.8 - Circuits Wired Partially In Series And Partially In ParallelChapter 20.10 - Kirchhoff’s RulesChapter 20.11 - The Measurement Of Current And VoltageChapter 20.13 - Rc CircuitsChapter 21 - Magnetic Forces And Magnetic FieldsChapter 21.2 - The Force That A Magnetic Field Exerts On A Moving ChargeChapter 21.3 - The Motion Of A Charged Particle In A Magnetic FieldChapter 21.5 - The Force On A Current In A Magnetic FieldChapter 21.7 - Magnetic Fields Produced By CurrentsChapter 22 - Electromagnetic InductionChapter 22.1 - Induced Emf And Induced CurrentChapter 22.2 - Motional EmfChapter 22.3 - Magnetic FluxChapter 22.4 - Faraday’s Law Of Electromagnetic InductionChapter 22.5 - Lenz’s LawChapter 22.6 - Applications Of Electromagnetic Induction To The Reproduction Of SoundChapter 22.7 - The Electric GeneratorChapter 22.9 - TransformersChapter 23 - Alternating Current CircuitsChapter 23.1 - Capacitors And Capacitive ReactanceChapter 23.2 - Inductors And Inductive ReactanceChapter 23.3 - Circuits Containing Resistance, Capacitance, And InductanceChapter 23.4 - Resonance In Electric CircuitsChapter 24 - Electromagnetic WavesChapter 24.1 - The Nature Of Electromagnetic WavesChapter 24.3 - The Speed Of LightChapter 24.4 - The Energy Carried By Electromagnetic WavesChapter 24.5 - The Doppler Effect And Electromagnetic WavesChapter 24.6 - PolarizationChapter 25 - The Refl Ection Of Light: MirrorsChapter 25.3 - The Formation Of Images By A Plane MirrorChapter 25.4 - Spherical MirrorsChapter 25.5 - The Formation Of Images By Spherical MirrorsChapter 25.6 - The Mirror Equation And The Magnifi Cation EquationChapter 26 - The Refraction Of Light: Lenses And Optical InstrumentsChapter 26.3 - Total Internal Refl EctionChapter 26.4 - Polarization And The Refl Ection And Refraction Of LightChapter 26.5 - The Dispersion Of Light: Prisms And RainbowsChapter 26.6 - LensesChapter 26.7 - The Formation Of Images By LensesChapter 26.8 - The Thin-Lens Equation And The Magnifi Cation EquationChapter 26.10 - The Human EyeChapter 26.11 - Angular Magnifi Cation And The Magnifying GlassChapter 26.13 - The TelescopeChapter 26.14 - Lens AberrationsChapter 27 - Interference And The Wave Nature Of LightChapter 27.1 - The Principle Of Linear SuperpositionChapter 27.2 - Young’s Double-Slit ExperimentChapter 27.3 - Thin-Film InterferenceChapter 27.5 - DiffractionChapter 27.6 - Resolving PowerChapter 27.7 - The Diffraction GratingChapter 28 - Special RelativityChapter 28.3 - The Relativity Of Time: Time DilationChapter 28.4 - The Relativity Of Length: Length ContractionChapter 28.6 - The Equivalence Of Mass And EnergyChapter 28.7 - The Relativistic Addition Of VelocitiesChapter 29 - Particles And WavesChapter 29.3 - Photons And The Photoelectric EffectChapter 29.4 - The Momentum Of A Photon And The Compton EffectChapter 29.5 - The De Broglie Wavelength And The Wave Nature Of MatterChapter 30 - The Nature Of The AtomChapter 30.3 - The Bohr Model Of The Hydrogen AtomChapter 30.5 - The Quantum Mechanical Picture Of The Hydrogen AtomChapter 30.6 - The Pauli Exclusion Principle And The Periodic Table Of The ElementsChapter 30.7 - X-RaysChapter 30.8 - The LaserChapter 31 - Nuclear Physics And RadioactivityChapter 31.1 - Nuclear StructureChapter 31.3 - The Mass Defect Of The Nucleus And Nuclear Binding EnergyChapter 31.4 - RadioactivityChapter 31.6 - Radioactive Decay And ActivityChapter 31.7 - Radioactive DatingChapter 31.8 - Radioactive Decay SeriesChapter 32 - Ionizing Radiation, Nuclear Energy, And Elementary ParticlesChapter 32.1 - Biological Effects Of Ionizing RadiationChapter 32.2 - Induced Nuclear ReactionsChapter 32.3 - Nuclear FissionChapter 32.5 - Nuclear FusionChapter 32.6 - Elementary Particles

Book Details

Cutnell and Johnson has been the #1 text in the algebra-based physics market for almost 20 years. The 10th edition brings on new co-authors: David Young and Shane Stadler (both out of LSU). The Cutnell offering now includes enhanced features and functionality. The authors have been extensively involved in the creation and adaptation of valuable resources for the text.

Sample Solutions for this Textbook

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Description: Write the expression for the restoring force of an ideal spring. Fx=−kx (1) Here Fx is...Explanation: According to the expression to calculate the pressure at a depth, P2=P1+ρgh , the...Description: Consider the conversion factor for degree Celsius to Kelvin. 1°C=273.15 K The size of...Formula used: Write the expression for conducted heat (Q) . Q=(kAΔT)tL . (1) Here k is thermal...Explanation: The molecular mass of an each substance varies; therefore, the ten grams of a pure...The expression of the first law of thermodynamics is, ΔU=Uf−Ui=Q−W Whenever the system gains the...Given data: In a domino toppling event, the dominos are lined up close together, and then the...Explanation: Out of the given four pulses, the combination of 1 and 2 will provide a resultant pulse...Calculation: There are two objects carrying the different charges that are −8.0 μC, −2.0 μC. Find...Formula used: Write the expression for electric potential energy. Electric Potential Energy=q0V...Given data: Total number of electrons (N) pass a certain point in a wire is 1.9×1019 Time (Δt) is...Description: Right-Hand Rule 1 (RHR 1) is stated as when the right hand is extended, the fingers are...Given data: The resistance of bulb A is 240 Ω . The resistance of bulb B is 192 Ω . The resistance...Given data: A circuit contains an ac generator and a resistor. Frequency is doubled and the rms...Given data: Refer to the Figure at the bottom of the question for the required data. The drawing in...Explanation: Rays are the radial lines which are perpendicular to the wave front that points outward...Explanation: When a ray of light travels from liquid A to liquid B, the incident ray gets refracted...Explanation: There will be a difference between the path length l2 and l1 occurs only when the...Explanation: The driver in a car who is approaching at a constant velocity is not in rest with...Given data: Star “A” has maximum curve at shorter wavelength than star “B”. Explanation: Refer to...Explanation: The Bohr model is not applied when more than one electron orbits the nucleus, because...Given data: Number of protons in indium nucleus is 49. Number of neutrons in indium nucleus is 66....Formula used: Write the expression for a biologically equivalent dose. Biologically equivalent dose...

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Physics: Probeware Lab Manual : Exploring Physics with PASCO Technology
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