1000 Solved Problems in Modern Physics

1000 Solved Problems in Modern Physics by Ahmad A. Kamal

Contents of 1000 Solved Problems Modern Physics

  • Mathematical Physics
  • Basic Concepts and Formulae
  • Problems
  • Vector Calculus
  • Fourier Series and Fourier Transforms
  • Gamma and Beta Functions
  • Matrix Algebra
  • Maxima and Minima
  • Series
  • Integration
  • Ordinary Differential Equations
  • Laplace Transforms
  • Special Functions
  • Complex Variables
  • Calculus of Variation
  • Statistical Distributions
  • Numerical Integration
  • Solutions
  • Vector Calculus
  • Fourier Series and Fourier Transforms
  • Gamma and Beta Functions
  • Matrix Algebra
  • Maxima and Minima
  • Series
  • Integration
  • Ordinary Differential Equations
  • Laplace Transforms
  • Special Functions
  • Complex Variables
  • Calculus of Variation
  • Statistical Distribution
  • Numerical Integration
  • Quantum Mechanics – I
  • Basic Concepts and Formulae
  • Problems
  • de Broglie Waves
  • Hydrogen Atom
  • X-rays
  • Spin and μ and Quantum Numbers – Stern–Gerlah’s
  • Experiment
  • Spectroscopy
  • Molecules
  • Commutators
  • Uncertainty Principle
  • Solutions
  • de Broglie Waves
  • Hydrogen Atom
  • X-rays
  • Spin and μ and Quantum Numbers – Stern–Gerlah’s
  • Experiment
  • Spectroscopy
  • Molecules
  • Commutators
  • Uncertainty Principle
  • Quantum Mechanics – II
  • Basic Concepts and Formulae
  • Problems
  • Wave Function
  • Schrodinger Equation
  • Potential Wells and Barriers
  • Simple Harmonic Oscillator
  • Hydrogen Atom
  • Angular Momentum
  • Approximate Methods
  • Scattering (Phase-Shift Analysis)
  • Scattering (Born Approximation)
  • Solutions
  • Wave Function
  • Schrodinger Equation
  • Potential Wells and Barriers
  • Simple Harmonic Oscillator
  • Hydrogen Atom
  • Angular Momentum
  • Approximate Methods
  • Scattering (Phase Shift Analysis)
  • Scattering (Born Approximation)
  • Thermodynamics and Statistical Physics
  • Basic Concepts and Formulae
  • Problems
  • Kinetic Theory of Gases
  • Maxwell’s Thermodynamic Relations
  • Statistical Distributions
  • Blackbody Radiation
  • Solutions
  • Kinetic Theory of Gases
  • Maxwell’s Thermodynamic Relations
  • Statistical Distributions
  • Blackbody Radiation
  • Solid State Physics
  • Basic Concepts and Formulae
  • Problems
  • Crystal Structure
  • Crystal Properties
  • Metals
  • Semiconductors
  • Superconductor
  • Solutions
  • Crystal Structure
  • Crystal Properties
  • Metals
  • Semiconductors
  • Superconductor
  • Special Theory of Relativity
  • Basic Concepts and Formulae
  • Problems
  • Lorentz Transformations
  • Length, Time, Velocity
  • Mass, Momentum, Energy
  • Invariance Principle
  • Transformation of Angles and Doppler Effect
  • Threshold of Particle Production
  • Solutions
  • Lorentz Transformations
  • Length, Time, Velocity
  • Mass, Momentum, Energy
  • Invariance Principle
  • Transformation of Angles and Doppler Effect
  • Threshold of Particle Production
  • Nuclear Physics – I
  • Basic Concepts and Formulae
  • Problems
  • Kinematics of Scattering
  • Rutherford Scattering
  • Ionization, Range and Straggling
  • Compton Scattering
  • Photoelectric Effect
  • Pair Production
  • Cerenkov Radiation
  • Nuclear Resonance
  • Radioactivity (General)
  • Alpha-Decay
  • Beta-Decay
  • Solutions
  • Kinematics of Scattering
  • Rutherford Scattering
  • Ionization, Range and Straggling
  • Compton Scattering
  • Photoelectric Effect
  • Pair Production
  • Cerenkov Radiation
  • Nuclear Resonance
  • Radioactivity (General)
  • Alpha-Decay
  • Beta-Decay
  • Nuclear Physics – II
  • Basic Concepts and Formulae
  • Problems
  • Atomic Masses and Radii
  • Electric Potential and Energy
  • Nuclear Spin and Magnetic Moment
  • Electric Quadrupole Moment
  • Nuclear Stability
  • Fermi Gas Model
  • Shell Model
  • Liquid Drop Model
  • Optical Model
  • Nuclear Reactions (General)
  • Cross-sections
  • Nuclear Reactions via Compound Nucleus
  • Direct Reactions
  • Fission and Nuclear Reactors
  • Fusion
  • Solutions
  • Atomic Masses and Radii
  • Electric Potential and Energy
  • Nuclear Spin and Magnetic Moment
  • Electric Quadrupole Moment
  • Nuclear Stability
  • Fermi Gas Model
  • Shell Model
  • Liquid Drop Model
  • Optical Model
  • Nuclear Reactions (General)
  • Cross-sections
  • Nuclear Reactions via Compound Nucleus
  • Direct Reactions
  • Fission and Nuclear Reactors
  • Fusion
  • Particle Physics – I
  • Basic Concepts and Formulae
  • Problems
  • System of Units
  • Production
  • Interaction
  • Decay
  • Ionization Chamber, GM Counter and Proportional
  • Counters
  • Scintillation Counter
  • Cerenkov Counter
  • Solid State Detector
  • Emulsions
  • Motion of Charged Particles in Magnetic Field
  • Betatron
  • Cyclotron
  • Synchrotron
  • Linear Accelerator
  • Colliders
  • Solutions
  • System of Units
  • Production
  • Interaction
  • Decay
  • Ionization Chamber, GM Counter and Proportional
  • Counters
  • Scintillation Counter
  • Cerenkov Counter
  • Solid State Detector
  • Emulsions
  • Motion of Charged Particles in Magnetic Field
  • Betatron
  • Cyclotron
  • Synchrotron
  • Linear Accelerator
  • Colliders
  • Particle Physics – II
  • Basic Concepts and Formulae
  • Problems
  • Conservation Laws
  • Strong Interactions
  • Quarks
  • Electromagnetic Interactions
  • Weak Interactions
  • Electro-Weak Interactions
  • Feynman Diagrams
  • Solutions
  • Conservation Laws
  • Strong Interactions
  • Quarks
  • Electromagnetic Interactions
  • Weak Interactions
  • Electro-weak Interactions
  • Feynman Diagrams

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