Solutions for Physics for Scientists and Engineers with Modern Physics
Browse All Chapters of This Textbook
Chapter 1 - Physics And MeasurementChapter 1.1 - Standards Of Length, Mass, And TimeChapter 1.3 - Dimensional AnalysisChapter 1.4 - Conversion Of UnitsChapter 2 - Motion In One DimensionChapter 2.1 - Position, Velocity, And Speed Of A ParticleChapter 2.2 - Instantaneous Velocity And SpeedChapter 2.5 - AccelerationChapter 2.6 - Motion DiagramsChapter 2.7 - Analysis Model: Particle Under Constant Acceleration
Chapter 2.8 - Freely Falling ObjectsChapter 3 - VectorsChapter 3.2 - Vector And Scalar QuantitiesChapter 3.3 - Basic Vector ArithmeticChapter 3.4 - Components Of Vector And Unit VectorsChapter 4 - Motion In Two DimensionsChapter 4.1 - The Position, Velocity, And Acceleration VectorsChapter 4.3 - Projectile MotionChapter 4.4 - Analysis Model: Particle In Uniform Circular MotionChapter 4.5 - Tangential And Radial AccelerationChapter 5 - The Laws Of MotionChapter 5.2 - Newton's First Law And Inertial FramesChapter 5.4 - Newton's Second LawChapter 5.5 - The Gravitational Force And WeightChapter 5.6 - Newton's Third LawChapter 5.8 - Force Of FrictionChapter 6 - Circular Motion And Other Applications Of Newton's LawsChapter 6.1 - Extending The Particle In Uniform Circular Motion ModelChapter 6.2 - Nonuniform Circular MotionChapter 6.3 - Motion In Accelerated FramesChapter 6.4 - Motion In The Presence Of Resistive ForcesChapter 7 - Energy Of A SystemChapter 7.2 - Work Done By A Constant ForceChapter 7.3 - The Scalar Product Of Two VectorsChapter 7.4 - Work Done By A Varying ForceChapter 7.5 - Kinetic Energy And The Work-kinetic Energy TheoremChapter 7.6 - Potential Energy Of A SystemChapter 7.8 - Relationship Between Conservative Forces And Potential EnergyChapter 8 - Conservation Of EnergyChapter 8.1 - Analysis Model: Nonisolated System(energy)Chapter 8.2 - Analysis Model: Isolated System(energy)Chapter 8.3 - Situations Involving Kinetic FrictionChapter 9 - Linear Momentum And CollisionsChapter 9.1 - Linear MomentumChapter 9.3 - Analsis Model: Nonisolated System(momentum)Chapter 9.4 - Collisions In One DimensionChapter 9.6 - The Center Of MassChapter 9.7 - Systems Of Many ParticlesChapter 10 - Rotation Of A Rigid Object About A Fixed AxisChapter 10.1 - Angular Position, Velocity, And AccelerationChapter 10.2 - Analysis Model: Rigid Object Under Constant Angular AccelerationChapter 10.3 - Angular And Translational QuantitiesChapter 10.4 - TorqueChapter 10.5 - Analysis Model: Rigid Object Under A Net TorqueChapter 10.7 - Rotational Kinetic EnergyChapter 10.9 - Rolling Motion Of A Right ObjectChapter 11 - Angular MomentumChapter 11.1 - The Vector Product And TorqueChapter 11.2 - Analysis Model: Nonisolated System(angular Momentum)Chapter 11.3 - Angular Momentum Of A Rotating Rigid ObjectChapter 11.4 - Analysis Model: Isolated System(angular Momentum)Chapter 12 - Static Equilibrium And ElasticityChapter 12.1 - Analysis Model: Rigid Objects In EquilibriumChapter 12.2 - More On The Center Of GravityChapter 12.4 - Elastic Properties Of SolidsChapter 13 - Universal GravitationChapter 13.1 - Newton's Law Of Universal GravitationChapter 13.2 - Free-fall Acceleration And The Gravitational ForceChapter 13.4 - Kepler's Laws And The Motion Of PlanetsChapter 13.6 - Energy Considerations In Planetary And Satellite MotionChapter 14 - Fluid MechanicsChapter 14.1 - PressureChapter 14.2 - Variation Of Pressure With DepthChapter 14.3 - Pressure MeasurementsChapter 14.4 - Buoyant Forces And Archimedes's PrincipleChapter 14.6 - Bernoulli's EquationChapter 15 - Oscillatory MotionChapter 15.1 - Motion Of An Object Attached To A SpringChapter 15.2 - Analysis Model: Particle In Simple Harmonic MotionChapter 15.4 - Comparing Simple Harmonic Motion With Uniform Circular MotionChapter 15.5 - The PendulumChapter 16 - Wave MotionChapter 16.1 - Propagation Of A DisturbanceChapter 16.2 - Analysis Model: Traveling WaveChapter 16.3 - The Speed Of Waves On StringChapter 16.4 - Rate Of Energy Transfer By Sinusoidal Waves On StringsChapter 16.6 - Sound WavesChapter 16.8 - Intensity Of Sound WavesChapter 16.9 - The Doppler EffectChapter 17 - Superposition And Standing WavesChapter 17.1 - Analysis Model: Waves In InterferenceChapter 17.2 - Standing WavesChapter 17.4 - Analysis Model: Waves Under Boundary ConditionsChapter 17.6 - Standing Waves In Air ColumnsChapter 18 - TemperatureChapter 18.1 - Temperature And The Zeroth Law Of ThermodynamicsChapter 18.3 - The Constant-volume Gas Thermometer And The Absolute Temperature ScaleChapter 18.4 - Thermal Expansion Of Solids And LiquidsChapter 18.5 - Macroscopic Description Of An Ideal GasChapter 19 - The First Law Of ThermodynamicsChapter 19.2 - Specific Heat And CalorimetryChapter 19.3 - Latent HeatChapter 19.5 - The First Law Of ThermodynamicsChapter 19.6 - Energy Transfer Mechanisms In Thermal ProcessesChapter 20 - The Kinetic Theory Of GasesChapter 20.1 - Molecular Model Of An Ideal GasChapter 20.2 - Molar Specific Heat Of An Ideal GasChapter 20.3 - The Equipartition Of EnergyChapter 21 - Heat Engines, Entropy, And The Second Law Of ThermodynamicsChapter 21.1 - Heat Engines And The Second Law Of ThermodynamicsChapter 21.2 - Heat Pumps And RefrigeratorsChapter 21.4 - The Carnot EngineChapter 21.6 - EntropyChapter 21.7 - Entropy In Thermodynamic SystemsChapter 22 - Electric FieldsChapter 22.1 - Properties Of Electric ChargesChapter 22.2 - Charging Objects By InductionChapter 22.3 - Coulomb's LawChapter 22.4 - Analysis Model: Particle In A Field(electric)Chapter 22.5 - Electric Field LinesChapter 23 - Continuous Charge Distributions And Gauss's LawChapter 23.2 - Electric FluxChapter 23.3 - Gauss's LawChapter 24 - Electric PotentialChapter 24.1 - Electric Potential And Potential DifferenceChapter 24.2 - Potential Difference In A Uniform Electric FieldChapter 24.3 - Electric Potential And Potential Energy Due To Point ChargesChapter 24.4 - Obtaining The Value Of The Electric Field From The Electric PotentialChapter 25 - Capacitance And DielectricsChapter 25.1 - Definition Of CapacitanceChapter 25.2 - Calculating CapacitanceChapter 25.3 - Combinations Of CapacitorsChapter 25.4 - Energy Stored In A Charged CapacitorChapter 25.5 - Capacitors With DielectricsChapter 26 - Current And ResistanceChapter 26.1 - Electric CurrentChapter 26.2 - ResistanceChapter 26.4 - Resistance And TemperatureChapter 27 - Direct-current CircuitsChapter 27.1 - Electromotive ForceChapter 27.2 - Resistors In Series And ParallelChapter 27.4 - Rc CircuitsChapter 28 - Magnetic FieldsChapter 28.1 - Analysis Model: Particle In A Field(magnetic)Chapter 28.2 - Motion Of Charged Particle In A Uniform Magnetci FieldChapter 28.4 - Magnetci Force Acting On A Current-carrying ConductorChapter 28.5 - Torque On A Current Loop In A Uniform Magnetic FieldChapter 29 - Sources Of The Magnetic FieldChapter 29.1 - The Biot-savart LawChapter 29.2 - The Magnetic Force Between Two Parallel ConductorsChapter 29.3 - Ampere's LawChapter 29.4 - The Magnetic Field Of A SolenoidChapter 30 - Faraday's LawChapter 30.1 - Faraday's Law Of InductionChapter 30.2 - Motional EmfChapter 30.3 - Lenz's LawChapter 30.5 - Generators And MotorsChapter 31 - InductanceChapter 31.1 - Self-induction And InductanceChapter 31.2 - Rl CircuitsChapter 31.3 - Energy In A Magnetic FieldChapter 31.4 - Mutual InductanceChapter 31.5 - Oscillations In An Lc CircuitChapter 32 - Alternating-current CircuitsChapter 32.2 - Resistors In An Ac CircuitChapter 32.3 - Inductors In An Ac CircuitChapter 32.4 - Capacitors In An Ac CircuitChapter 32.5 - The Rlc Series CircuitChapter 32.6 - Power In An Ac CircuitChapter 32.7 - Resonance In A Series Rlc CircuitChapter 33 - Electromagnetic WavesChapter 33.1 - Displacement Current And The General Form Of Ampere's LawChapter 33.3 - Plane Electromagnetic WavesChapter 33.5 - Momentum And Radiation PressureChapter 33.6 - Production Of Electromagnetic Waves By An AntennaChapter 33.7 - The Spectrum Of Electromagnetic WavesChapter 34 - The Nature Of Light And The Principles Of Ray OpticsChapter 34.3 - Analysis Model: Wave Under ReflectionChapter 34.4 - Analysis Model: Wave Under RefractionChapter 34.6 - DispersionChapter 34.7 - Total Internal ReflectionChapter 35 - Image FonnationChapter 35.1 - Images Formed By Flat MirrorsChapter 35.2 - Images Formed By SphericalmirrorsChapter 35.3 - Images Formed By RefractionChapter 35.4 - Images Formed By Thin LensesChapter 35.6 - Optical InstrumentsChapter 36 - Wave OpticsChapter 36.2 - Analysis Model:waves In InterferenceChapter 36.3 - Intensity Distribution Of The Double-slit Interference PatternChapter 36.5 - Interference In Thin FilmsChapter 37 - Diffraction Patterns And PolarizationChapter 37.2 - Diffraction Patterns Firom Narrow SlitsChapter 37.3 - Resolution Of Single-slit And Circular AperturesChapter 37.4 - The Diffraction GratingChapter 37.6 - Polar Zation Of LightwavesChapter 38 - RelativityChapter 38.1 - The Princ Ple Of Ga Lilean RelativityChapter 38.4 - Consequences Of The Special Theory Of ReativityChapter 38.6 - The Lorentz Velocity Transformation EquationsChapter 38.8 - Relativistic EnergyChapter 39 - Introduction To Quantum PhysicsChapter 39.1 - Blackbody Radiation And Planck’s HypothesisChapter 39.2 - The Photoelectric EffectChapter 39.3 - The Compton EffectChapter 39.5 - The Wave Properties Of ParticlesChapter 39.6 - A New Model: The Quantum ParticleChapter 40 - Quantum MechanicsChapter 40.1 - The Wave FunctionChapter 40.2 - Analysis Model: Quantum Particle Under Boundary ConditionsChapter 40.5 - Tunneling Through A Potential Energy BarrierChapter 41 - Atomic PhysicsChapter 41.3 - Bohr’s Model Of The Hydrogen AtomChapter 41.4 - The Quantum Model Of The Hydrogen AtomChapter 41.8 - More On Atomic Spectra: Visible And X-rayChapter 42 - Molecules And SolidsChapter 42.1 - Molecular BondsChapter 42.2 - Energy States And Spectra Of MoleculesChapter 43 - Nuclear PhysicsChapter 43.1 - Some Properties Of NucleiChapter 43.5 - The Decay ProcessesChapter 43.8 - Nuclear FissionChapter 43.10 - Nuclear FusionChapter 44 - Particle Physics And CosmologyChapter 44.2 - Positrons And Other AntiparticlesChapter 44.5 - Conservation LawsChapter 44.8 - Quarks
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We offer sample solutions for Physics for Scientists and Engineers with Modern Physics homework problems. See examples below:
Given information: The average mass of the Earth is 5.97×1024 kg and the mean radius of the Earth is...Section 1: To determine: The density of the aluminum sphere. Answer: The density of the aluminum...Chapter 1, Problem 17PChapter 1, Problem 34APChapter 2, Problem 1PChapter 2, Problem 10PChapter 2, Problem 11PChapter 2, Problem 23PChapter 2, Problem 43CP
Chapter 3, Problem 1PSection 1: To determine: The magnitude of D→=A→+B→+C→ . Answer: The magnitude of D→=A→+B→+C→ is 2.83...Chapter 3, Problem 28PGiven information: The velocity of hurricane for the first 3 hours is 41.0 km/h with a direction of...Chapter 3, Problem 46CPChapter 4, Problem 1PChapter 4, Problem 4PChapter 4, Problem 12PChapter 4, Problem 43APChapter 4, Problem 44APChapter 5, Problem 1PChapter 5, Problem 7PChapter 5, Problem 31PChapter 5, Problem 39APChapter 5, Problem 40APChapter 5, Problem 51CPChapter 6, Problem 1PChapter 6, Problem 12PChapter 6, Problem 19PChapter 6, Problem 45CPChapter 6, Problem 47CPChapter 6, Problem 48CPChapter 7, Problem 1PChapter 7, Problem 27PChapter 7, Problem 32PChapter 7, Problem 33PGiven Information: The mass of an object is 5.00 kg , the magnitude of the first force is 25.0 N at...Chapter 7, Problem 50CPExplanation: Given information: A ball of mass m falls from a height h to the floor. From the...Explanation: Given information: The mass of the child is m , the height of the slide is h and the...Given info: The mass of the empty car is 250 kg , the height of the track is 110 m , the total...Chapter 8, Problem 26APChapter 8, Problem 44CPChapter 9, Problem 1PChapter 9, Problem 28PChapter 9, Problem 34PChapter 9, Problem 37APChapter 9, Problem 47APGiven information: The mass of the object is 3 kg , the velocity of the object is 7j^ m/s and the...Chapter 10, Problem 1PChapter 10, Problem 33PGiven information: The mass of car is 800 kg , mass of counterweight is 950 kg , mass of pulley is...Given information: The mass of hour hand is 60 kg , mass of minute hand is 100 kg , length of hour...Given information: The diameter of the flywheel must be no more than 18.0 cm and the length is not...Given information: The vector M→ is 2i^−3j^+k^ and the vector N→ is 4i^+5j^−2k^ . The cross product...Chapter 11, Problem 14PChapter 11, Problem 30PGiven information: The mass of sign is 2.40 kg , the vertical length of sign is 50 cm , the maximum...Chapter 11, Problem 37APGiven information: The mass of Jacob is 45.0 kg , the mass of Ethan is 31.0 kg , the speed of Jacob...Chapter 12, Problem 1PChapter 12, Problem 12PChapter 12, Problem 27APChapter 12, Problem 35APChapter 12, Problem 38APExplanation: Given information: Two lead spheres masses of 1.50 kg and 15.0 g whose centers of...Given info: The initial speed of the vehicle is vi , the escape speed of space vehicle is vesc and...Explanation: Given information: The maximum distance from the Earth to the Sun is 1.521×1011 m and...Given information: The mass of the satellite is 100 kg . The initial altitude of the satellite is...Explanation: Given information: A object of mass m is distance from the Earth’s center is 1.20×107 m...Chapter 14, Problem 1PChapter 14, Problem 12PGiven information: Density of liquid is 850 kg/m3 , radius of the first horizontal tube is 1.0 cm...Explanation: Given information: The mass of the balloon is 0.250 kg tied to a uniform length 2.00 m...Chapter 14, Problem 36APChapter 14, Problem 46APChapter 15, Problem 1PChapter 15, Problem 5PChapter 15, Problem 14PSection 1: To determine: The amplitude of the motion. Answer: The maximum speed of the amplitude of...Chapter 15, Problem 37APChapter 15, Problem 48CPChapter 16, Problem 1PChapter 16, Problem 8PAny function is a solution of linear wave equation in general if it satisfies the equation...Chapter 16, Problem 41PGiven Info: The wave function for string is given as, y(x,t)=(A0e−bx)sin(kx−ωt) Formula to calculate...Given info: The given wave function is, ΔP(r,t)=(25.0r)sin(1.36r−2030t) (1) The standard form wave...Introduction: Force diagram contains all the forces acting on the body. It contains the direction of...Chapter 17, Problem 1PChapter 17, Problem 6PIntroduction: The values of y varies in sinusoidal form. Initially it increases from zero to its...Given info: The dimension of the shower stall is 86.0 cm×86.0 cm×210 cm . The range of frequencies...Chapter 17, Problem 40APGiven info: The frequency of wave is f , the amplitude of wave is A . The period of wave is...Given info: The normal human body temperature in degree Fahrenheit is 98.6 °F . In the new scale the...Given information:Initial temperature is 20.0 °C , inner diameter of the aluminium ring is 5.0000 cm...Given info: The distance between two holes drilled at 0 °C is 40.0 cm , the melting temperature of...Chapter 18, Problem 35APGiven info: The angle made by the roof with the horizontal plane is θ , the initial temperature is...Given information: Mass of the woman is 55.0 kg and energy in one doughnut is 540 Calorie(540 kcal)...Chapter 19, Problem 22PChapter 19, Problem 35APGiven info: The mass of one bullet is 12.0 g , mass of second bullet is 8.00 g , speed of one bullet...Let the rate of energy transfer is P , radius of the spherical surface is r , the elemental...Chapter 20, Problem 1PChapter 20, Problem 21PChapter 20, Problem 29APIntroduction: The Maxwell distribution curve is the graph between the distribution of speed and the...Given information:Value of average speed is vmp50.0 . Write the expression for the Maxwell-Boltzmann...Chapter 21, Problem 1PGiven information:The rate of work output of the engine is 1.40 MW , thetemperature into the cooling...Chapter 21, Problem 37APGiven info: The mass of the athlete and the water is 70 kg and 454 g respectively. The initial...Chapter 21, Problem 47CPChapter 22, Problem 1PChapter 22, Problem 10PGiven info: The charge of particle A is 3.00×10−4 C , charge of particle B is −6.00×10−4 C , and...Chapter 22, Problem 26PChapter 22, Problem 35APChapter 23, Problem 1PChapter 23, Problem 3PChapter 23, Problem 5PChapter 23, Problem 8PChapter 23, Problem 9PChapter 23, Problem 33PChapter 24, Problem 1PChapter 24, Problem 6PChapter 24, Problem 12PGiven info: The radius of sphere 1 is r1 , the radius of sphere 2 is r2 , the mass of sphere 1 is m1...Chapter 24, Problem 43APChapter 24, Problem 48CPChapter 25, Problem 1PChapter 25, Problem 10PChapter 25, Problem 11PGiven information: The value of capacitor 1 is 18.0 μF , value of capacitor 2 is 36.0 μF , voltage...Given info: The radii of two conducting sphere is R1 and R2 . The total charge shared between them...Chapter 25, Problem 49CPGiven information: Length of the high voltage transmission line is 200 km , diameter of the...Chapter 26, Problem 6PGiven information: Power of light bulb A is 25 W , and voltage across light bulb A is 120 V , power...Given information: Area of cross section of gauge wire is 7.30×10−8 m2 , length of gauge wire 1 is...Chapter 26, Problem 41APGiven information: Th first symbol i.e. Euler’s number is e , the second symbol i.e. magnitude of...Chapter 27, Problem 1PChapter 27, Problem 10PChapter 27, Problem 15PChapter 27, Problem 17PChapter 27, Problem 22PGiven info: The open circuit voltage of the battery is 9.30 V . The short circuit current is 3.70 A...Chapter 28, Problem 1PChapter 28, Problem 8PChapter 28, Problem 18PChapter 28, Problem 28PChapter 28, Problem 34PChapter 28, Problem 51CPChapter 29, Problem 1PGiven Info: The current flowing through the conductor is 2.00 A , distance between corner of square...Given info: The magnitude of magnetic field is 1.00 μT , the distance from the wire is 40.0 cm and...Chapter 29, Problem 38APChapter 29, Problem 42APGiven info: The given figure is shown below: Figure (1) Write the expression for the current in the...Chapter 30, Problem 1PChapter 30, Problem 5PGiven info: Magnetic field of system is 0.400 T , distance between the horizontal rails is 0.800 m ,...Chapter 30, Problem 47APGiven info: Radius of disk is R , thickness of disk is b , resistivity of the disk is ρ and...Chapter 30, Problem 51CPGiven Info: The inductance of the given inductor is 2.00 H , steady current is 0.500 A and time...Given info: value of resistance R is 4.00 Ω , inductance of the circuit is 1.00 H and emf of the...Given info: The value of resistance R is 4.00 Ω , inductance of the circuit is 1.00 H and emf of the...Chapter 31, Problem 46APGiven info: The power carry by the coaxial cable is 1.00×103 MW , potential difference is 200 kV ,...Given info: The battery emf is 18.0 V , inductance is 0.500 H , first resistance is 2.00 kΩ and...Chapter 32, Problem 1PChapter 32, Problem 16PGiven info: The mechanical vibration of first wave is y1=12.0sin4.50t and for second wave is...Chapter 32, Problem 43APChapter 32, Problem 44APChapter 32, Problem 49CPGiven info: The current is 0.200 A , the radius of the circular plate is 10.0 cm and the separation...Given info: The intensity of solar radiation incident on the Earth is 1.370 W/m2 Write the formula...The formula to calculate the wavelength is, λ=cf (1) Here, c is the speed of light. f is the...Given info: The expression for the average intensity of the wave is,...Given info: The weight of the black cat is 5.50 kg , the weight of the kittens is 0.800 kg , the...Given info: The frequency of the wave is 90.0 MHz and the peak value of the electric field is 2.00...Chapter 34, Problem 1PGiven info: The wavelength of sound wave is 589 nm and angle of incidence is 13.0° . 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The formula to calculate the intensity after...Formula to calculate the angles of bright beams diffracted from the grafting is, dsinθ=mλ (1) Here,...Given info: The equation of the intensity of the light in the diffraction pattern is I=Imaxsin2ϕϕ2...Chapter 38, Problem 1PGiven info: The speed limit is 90.0 km/h and the fine for driving at 190 E is $80.0 . Write the...Given info: The kinetic energy of the electron and proton is 2.00 MeV , the rest energy of the...Given info: The time period of the satellite moving around earth in the circular orbit is 11h 58min...Given info: The given equation is K=(11−u2/c2−1)mc2 . The equation for the kinetic energy is given...The formula to calculate the relative momentum is, p=mu1−(u/c)2 Here, m is the mass of the electric...Write the expression for Wein’s displacement law. λmaxT=2.898×10−3 m⋅K (I) Here, λmax is the maximum...Write the expression for the power radiated by the black body. P=σAeT4 (I) Here, P is the power...Write the expression to find the change in wavelength. Δλ=hmec(1−cosθ) (I) Here, h is the Plank’s...Write the expression for the conservation of momentum along horizontal direction. hλ=hλ′cosθ+pcosθ...The scattering angle for both the photon and the electron is θ. The energy of the incident photon is...The angular wave number from the wave function is 5.00×1010 m−1. Write the expression to calculate...The length of the box is 0.100 nm. Write the expression for energy of one dimensional box...Write the equation for potential energy. U=keq1q2r (I) Here, U is the potential energy, ke is the...Write the given wave function of the electron. ψ(x)={Ae−αx for x>0Ae+αx for x<0 (I) Here, ψ(x)...Write the Schrodinger equation for a simple harmonic oscillator. −ℏ22md2ψdx2+12mω2x2ψ=Eψ Here, ℏ is...Write the expression to calculate the wavelength of the first line. λ=1RH(n2n2−1) Here, λ is the...Write the equation for acceleration according to Newton’s second law. a=Fm (I) Here, F is the force,...Write the equation for the angular momentum of electron. L=mevr Here, L is the angular momentum of...Write the general expression for the energy levels of one electron atoms. En=−μke2q12q222ℏ2n2 Here,...The gravitational force between Earth and sun is balanced by the centripetal force of rotational...Write the expression to calculate the energy of the helium. E=32kT Here, E is the energy, k is the...Chapter 42, Problem 11PA hydrogen molecule makes a transition from ground level to v=1 and J=1 after absorbing a photon of...Write the equation to find the moment of inertia of benzene molecule about an axis passing through...A human body is mostly composed of water. In water molecule there are 8 protons and 10 neutrons....Let N10 be the number of parent nuclei at time t=0, N1(t) be the number of parent nuclei at any...Two fragments must move in opposite direction for the momentum conservation. Write the equation for...Write the equation for volume of a cube. V=l3 (I) Here, V is the volume of a cube and l is the edge...Write the expression to find the mass of 238U in the sample. m238U=M−m235U−m234U Here, m238U is the...Write the equation to find the number of nuclie in the given mass. n=NavaMPum Here, n is the number...In this case, each photon would have same energy that is the rest mass energy of the proton to...Check for the charge conservation. C:0+0→1+−1 Thus, charge is conserved. Check for Baryon number...The Λ0 particle decay into a π− meson. Write the decay reaction, keeping in mind the required...Write the reaction. Ξ−→Λ0+μ−+νμ Check the conservation of baryon number for the reaction on both...Write the equation showing the conservation of energy. Emin+m2c2=(m3c2)2+(p3c)2 (I) Here, Emin is...
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