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