1000 Solved Problems in Modern Physics

1 Mathematical Physics............................................

1.1 Basic Concepts and Formulae

1.2 Problems..................................................
- 1.2.1 VectorCalculus....................................
- 1.2.2 FourierSeriesandFourierTransforms.................
- 1.2.3 Gamma and Beta Functions
- 1.2.4 Matrix Algebra
- 1.2.5 MaximaandMinima
- 1.2.6 Series............................................
- 1.2.7 Integration........................................
- 1.2.8 OrdinaryDifferentialEquations......................
- 1.2.9 LaplaceTransforms
- 1.2.10 Special Functions
- 1.2.11 ComplexVariables.................................
- 1.2.12 CalculusofVariation...............................
- 1.2.13 StatisticalDistributions
- 1.2.14 NumericalIntegration

1.3 Solutions..................................................
- 1.3.1 VectorCalculus....................................
- 1.3.2 FourierSeriesandFourierTransforms.................
- 1.3.3 Gamma and Beta Functions
- 1.3.4 Matrix Algebra
- 1.3.5 MaximaandMinima
- 1.3.6 Series............................................
- 1.3.7 Integration........................................
- 1.3.8 OrdinaryDifferentialEquations......................
- 1.3.9 LaplaceTransforms
- 1.3.10 Special Functions
- 1.3.11 ComplexVariables.................................
- 1.3.12 CalculusofVariation...............................
- 1.3.13 StatisticalDistribution..............................
- 1.3.14 NumericalIntegration

2 Quantum Mechanics – I xii Contents

2.1 Basic Concepts and Formulae

2.2 Problems..................................................
- 2.2.1 deBroglieWaves
- 2.2.2 Hydrogen Atom...................................
- 2.2.3 X-rays
  - Experiment 2.2.4 Spin andμand Quantum Numbers – Stern–Gerlah’s
- 2.2.5 Spectroscopy
- 2.2.6 Molecules
- 2.2.7 Commutators .....................................
- 2.2.8 Uncertainty Principle...............................

2.3 Solutions..................................................
- 2.3.1 deBroglieWaves ..................................
- 2.3.2 Hydrogen Atom...................................
- 2.3.3 X-rays ...........................................
  - Experiment 2.3.4 Spin andμand Quantum Numbers – Stern–Gerlah’s
- 2.3.5 Spectroscopy ....................................
- 2.3.6 Molecules ....................................
- 2.3.7 Commutators .....................................
- 2.3.8 Uncertainty Principle...............................

3 Quantum Mechanics – II.........................................

3.1 Basic Concepts and Formulae ................................

3.2 Problems..................................................
- 3.2.1 Wave Function ....................................
- 3.2.2 Schrodinger Equation. .........................
- 3.2.3 PotentialWellsandBarriers .........................
- 3.2.4 Simple Harmonic Oscillator .........................
- 3.2.5 Hydrogen Atom...................................
- 3.2.6 Angular Momentum ................................
- 3.2.7 Approximate Methods .........................
- 3.2.8 Scattering (Phase-Shift Analysis) .....................
- 3.2.9 Scattering(BornApproximation).....................

3.3 Solutions..................................................
- 3.3.1 Wave Function ....................................
- 3.3.2 Schrodinger Equation. .........................
- 3.3.3 PotentialWellsandBarriers .........................
- 3.3.4 Simple Harmonic Oscillator .........................
- 3.3.5 Hydrogen Atom...................................
- 3.3.6 Angular Momentum ................................
- 3.3.7 Approximate Methods .........................
- 3.3.8 Scattering (Phase Shift Analysis) .....................
- 3.3.9 Scattering(BornApproximation).....................

4 Thermodynamics and Statistical Physics .......................... Contents xiii

4.2 Problems..................................................
- 4.2.1 Kinetic Theory of Gases .........................
- 4.2.2 Maxwell’s Thermodynamic Relations ..............
- 4.2.3 StatisticalDistributions .............................
- 4.2.4 Blackbody Radiation...............................

4.3 Solutions..................................................
- 4.3.1 Kinetic Theory of Gases .........................
- 4.3.2 Maxwell’s Thermodynamic Relations ..............
- 4.3.3 StatisticalDistributions .............................
- 4.3.4 Blackbody Radiation...............................

5 Solid State Physics..............................................

5.2 Problems..................................................
- 5.2.1 CrystalStructure...................................
- 5.2.2 Crystal Properties ................................
- 5.2.3 Metals ...........................................
- 5.2.4 Semiconductors...................................
- 5.2.5 Superconductor ....................................

5.3 Solutions..................................................
- 5.3.1 CrystalStructure...................................
- 5.3.2 Crystal Properties ................................
- 5.3.3 Metals ...........................................
- 5.3.4 Semiconductors...................................
- 5.3.5 Superconductor ....................................

6 Special Theory of Relativity......................................

6.2 Problems..................................................
- 6.2.1 LorentzTransformations............................
- 6.2.2 Length, Time, Velocity .........................
- 6.2.3 Mass,Momentum,Energy ..........................
- 6.2.4 Invariance Principle ................................
- 6.2.5 Transformation of Angles and Doppler Effect .......
- 6.2.6 Threshold of Particle Production .....................

6.3 Solutions..................................................
- 6.3.1 LorentzTransformations............................
- 6.3.2 Length, Time, Velocity .........................
- 6.3.3 Mass,Momentum,Energy ..........................
- 6.3.4 Invariance Principle ................................
- 6.3.5 Transformation of Angles and Doppler Effect .......
- 6.3.6 Threshold of Particle Production .....................

7 Nuclear Physics – I.............................................. xiv Contents

7.2 Problems..................................................
- 7.2.1 KinematicsofScattering............................
- 7.2.2 RutherfordScattering...............................
- 7.2.3 Ionization, Range and Straggling .....................
- 7.2.4 ComptonScattering................................
- 7.2.5 Photoelectric Effect ................................
- 7.2.6 Pair Production ....................................
- 7.2.7 CerenkovRadiation ................................
- 7.2.8 Nuclear Resonance ................................
- 7.2.9 Radioactivity (General) .........................
- 7.2.10 Alpha-Decay ....................................
- 7.2.11 Beta-Decay ....................................

7.3 Solutions..................................................
- 7.3.1 KinematicsofScattering............................
- 7.3.2 RutherfordScattering...............................
- 7.3.3 Ionization, Range and Straggling .....................
- 7.3.4 ComptonScattering................................
- 7.3.5 Photoelectric Effect ................................
- 7.3.6 Pair Production ....................................
- 7.3.7 CerenkovRadiation ................................
- 7.3.8 Nuclear Resonance ................................
- 7.3.9 Radioactivity (General) .........................
- 7.3.10 Alpha-Decay ....................................
- 7.3.11 Beta-Decay ....................................

8 Nuclear Physics – II.............................................

8.2 Problems..................................................
- 8.2.1 AtomicMassesandRadii ...........................
- 8.2.2 ElectricPotentialandEnergy ........................
- 8.2.3 Nuclear Spin and Magnetic Moment ..............
- 8.2.4 Electric Quadrupole Moment........................
- 8.2.5 Nuclear Stability...................................
- 8.2.6 Fermi Gas Model ................................
- 8.2.7 Shell Model ....................................
- 8.2.8 Liquid Drop Model ................................
- 8.2.9 Optical Model ....................................
- 8.2.10 Nuclear Reactions (General).........................
- 8.2.11 Cross-sections ....................................
- 8.2.12 Nuclear Reactions via Compound Nucleus.............
- 8.2.13 DirectReactions...................................
- 8.2.14 Fission and Nuclear Reactors........................
- 8.2.15 Fusion ...........................................

8.3 Solutions.................................................. Contents xv
- 8.3.1 AtomicMassesandRadii ...........................
- 8.3.2 ElectricPotentialandEnergy ........................
- 8.3.3 Nuclear Spin and Magnetic Moment ..............
- 8.3.4 Electric Quadrupole Moment........................
- 8.3.5 Nuclear Stability...................................
- 8.3.6 Fermi Gas Model ................................
- 8.3.7 Shell Model ....................................
- 8.3.8 Liquid Drop Model ................................
- 8.3.9 Optical Model ....................................
- 8.3.10 Nuclear Reactions (General).........................
- 8.3.11 Cross-sections ....................................
- 8.3.12 Nuclear Reactions via Compound Nucleus.............
- 8.3.13 DirectReactions...................................
- 8.3.14 Fission and Nuclear Reactors........................
- 8.3.15 Fusion ...........................................

9 Particle Physics – I..............................................

9.2 Problems..................................................
- 9.2.1 SystemofUnits ...................................
- 9.2.2 Production ....................................
- 9.2.3 Interaction........................................
- 9.2.4 Decay ...........................................
  - Counters 9.2.5 Ionization Chamber, GM Counter and Proportional
- 9.2.6 Scintillation Counter...............................
- 9.2.7 Cerenkov Counter ................................
- 9.2.8 SolidStateDetector................................
- 9.2.9 Emulsions ........................................
- 9.2.10 Motion of Charged Particles in Magnetic Field .......
- 9.2.11 Betatron..........................................
- 9.2.12 Cyclotron.........................................
- 9.2.13 Synchrotron. ....................................
- 9.2.14 Linear Accelerator ................................
- 9.2.15 Colliders .........................................

9.3 Solutions..................................................
- 9.3.1 SystemofUnits ...................................
- 9.3.2 Production ....................................
- 9.3.3 Interaction........................................
- 9.3.4 Decay ...........................................
  - Counters 9.3.5 Ionization Chamber, GM Counter and Proportional
- 9.3.6 Scintillation Counter...............................
  - 9.3.7 Cerenkov Counter ................................ xvi Contents
  - 9.3.8 SolidStateDetector................................
  - 9.3.9 Emulsions ........................................
  - 9.3.10 Motion of Charged Particles in Magnetic Field .......
  - 9.3.11 Betatron..........................................
  - 9.3.12 Cyclotron.........................................
  - 9.3.13 Synchrotron. ....................................
  - 9.3.14 Linear Accelerator ................................
  - 9.3.15 Colliders .........................................

10 Particle Physics – II.............................................

10.2 Problems..................................................
- 10.2.1 ConservationLaws.................................
- 10.2.2 StrongInteractions.................................
- 10.2.3 Quarks...........................................
- 10.2.4 Electromagnetic Interactions .........................
- 10.2.5 WeakInteractions..................................
- 10.2.6 Electro-WeakInteractions...........................
- 10.2.7 FeynmanDiagrams ................................

10.3 Solutions..................................................
- 10.3.1 ConservationLaws.................................
- 10.3.2 StrongInteractions.................................
- 10.3.3 Quarks...........................................
- 10.3.4 Electromagnetic Interactions .........................
- 10.3.5 WeakInteractions..................................
- 10.3.6 Electro-weakInteractions ...........................
- 10.3.7 FeynmanDiagrams ................................

Appendix: Problem Index...........................................

Index.............................................................

1000 Solved Problems in Modern Physics

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