Physics formula book FREE PDF DOWNLOAD google drive link

PHYSICS FORMULATRY BOOK By J.C.A. Wevers FREE PDF DOWNLOAD HERE 

 

This document / file  contains a total 108 pages  which contains a lot equations in physics. It is written atadvanced  undergraduate (UG)  / postgraduate (PG) level. All the formulas  arranged  Chapterwise in very  manner. It will help  you in various  higher level examinations based  UG and PG  like IIT JAM, JEST,  JRF, TIFR, GATE, CSIR NET , UGC NET etc.
 
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Content of PHYSICS FORMULATRY Book (PDF)

Physical Constants 

1 Mechanics 

1.1 Point-kinetics in a fixed coordinate system
1.1.1 Definitions
1.1.2 Polar coordinates
1.2 Relative motion
1.3 Point-dynamics in a fixed coordinate system
1.3.1 Force, (angular)momentum and energy
1.3.2 Conservative force fields
1.3.3 Gravitation
1.3.4 Orbital equations
1.3.5 The virial theorem
1.4 Point dynamics in a moving coordinate system
1.4.1 Apparent forces
1.4.2 Tensor notation
1.5 Dynamics of masspoint collections
1.5.1 The centre of mass
1.5.2 Collisions
1.6 Dynamics of rigid bodies
1.6.1 Moment of Inertia
1.6.2 Principal axes
1.6.3 Time dependence
1.7 Variational Calculus, Hamilton and Lagrange mechanics
1.7.1 Variational Calculus
1.7.2 Hamilton mechanics 
1.7.3 motion around an equilibrium, linearization
1.7.4 Phase space, Liouville’s equation
1.7.5 Generating functions


2 Electricity & Magnetism 

2.1 The Maxwell equations
2.2 Force and potential
2.3 Gauge transformations
2.4 Energy of the electromagnetic field
2.5 Electromagnetic waves
2.5.1 Electromagnetic waves in vacuum
2.5.2 Electromagnetic waves in matter
2.6 Multipoles
2.7 Electric currents
2.8 Depolarizing field
2.9 Mixtures of materials

3 Relativity 

3.1 Special relativity
3.1.1 The Lorentz transformation
3.1.2 Red and blue shift
3.1.3 The stress-energy tensor and the field tensor
3.2 General relativity
3.2.1 Riemannian geometry, the Einstein tensor
3.2.2 The line element
3.2.3 Planetary orbits and the perihelion shift
3.2.4 The trajectory of a photon
3.2.5 Gravitational waves
3.2.6 Cosmology

4 Oscillation 

4.1 Harmonic oscillations
4.2 Mechanic oscillations
4.3 Electric oscillations
4.4 Waves in long conductors
4.5 Coupled conductors and transformers
4.6 Pendulums


5 Waves 

5.1 The wave equation
5.2 Solutions of the wave equation
5.2.1 Plane waves
5.2.2 Spherical waves .
5.2.3 Cylindrical waves
5.2.4 The general solution in one dimension
5.3 The stationary phase method
5.4 Green functions for the initial-value problem
5.5 Waveguides and resonating cavities
5.6 Non-linear wave equations

6 Optics 

6.1 The bending of light
6.2 Paraxial geometrical optics
6.2.1 Lenses
6.2.2 Mirrors
6.2.3 Principal planes
6.2.4 Magnification
6.3 Matrix methods
6.4 Aberrations
6.5 Reflection and transmission
6.6 Polarization
6.7 Prisms and dispersion
6.8 Diffraction
6.9 Special optical effects
6.10 The Fabry-Perot interferometer

7 Statistical physics 

7.1 Degrees of freedom
7.2 The energy distribution function
7.3 Pressure on a wall
7.4 The equation of state
7.5 Collisions between molecules
7.6 Interaction between molecules


8 Thermodynamics 

8.1 Mathematical introduction
8.2 Definitions
8.3 Thermal heat capacity
8.4 The laws of thermodynamics
8.5 State functions and Maxwell relations
8.6 Processes
8.7 Maximal work
8.8 Phase transitions
8.9 Thermodynamic potential
8.10 Ideal mixtures
8.11 Conditions for equilibrium
8.12 Statistical basis for thermodynamics
8.13 Application to other systems

9 Transport phenomena 

9.1 Mathematical introduction
9.2 Conservation laws
9.3 Bernoulli’s equations
9.4 Characterising of flows by dimensionless numbers
9.5 Tube flows
9.6 Potential theory
9.7 Boundary layers
9.7.1 Flow boundary layers
9.7.2 Temperature boundary layers
9.8 Heat conductance
9.9 Turbulence
9.10 Self organization

10 Quantum physics 

10.1 Introduction to quantum physics
10.1.1 Black body radiation
10.1.2 The Compton effect
10.1.3 Electron diffraction
10.2 Wave functions
10.3 Operators in quantum physics
10.4 The uncertainty principle
10.5 The Schr¨odinger equation
10.6 Parity
10.7 The tunnel effect
10.8 The harmonic oscillator
10.9 Angular momentum
10.10 Spin
10.11 The Dirac formalism
10.12 Atomic physics
10.12.1 Solutions
10.12.2 Eigenvalue equations
10.12.3 Spin-orbit interaction
10.12.4 Selection rules
10.13 Interaction with electromagnetic fields
10.14 Perturbation theory
10.14.1 Time-independent perturbation theory
10.14.2 Time-dependent perturbation theory
10.15 N-particle systems
10.15.1 General
10.15.2 Molecules
10.16 Quantum statistics

11 Plasma physics 

11.1 Introduction
11.2 Transport
11.3 Elastic collisions
11.3.1 General
11.3.2 The Coulomb interaction
11.3.3 The induced dipole interaction
11.3.4 The centre of mass system
11.3.5 Scattering of light
11.4 Thermodynamic equilibrium and reversibility
11.5 Inelastic collisions
11.5.1 Types of collisions
11.5.2 Cross sections
11.6 Radiation
11.7 The Boltzmann transport equation
11.8 Collision-radiative models
11.9 Waves in plasma’s

12 Solid state physics 

12.1 Crystal structure
12.2 Crystal binding
12.3 Crystal vibrations
12.3.1 A lattice with one type of atoms
12.3.2 A lattice with two types of atoms
12.3.3 Phonons
12.3.4 Thermal heat capacity
12.4 Magnetic field in the solid state
12.4.1 Dielectrics
12.4.2 Paramagnetism
12.4.3 Ferromagnetism
12.5 Free electron Fermi gas
12.5.1 Thermal heat capacity
12.5.2 Electric conductance
12.5.3 The Hall-effect
12.5.4 Thermal heat conductivity
12.6 Energy bands
12.7 Semiconductors
12.8 Superconductivity
12.8.1 Description
12.8.2 The Josephson effect
12.8.3 Flux quantisation in a superconducting ring
12.8.4 Macroscopic quantum interference
12.8.5 The London equation
12.8.6 The BCS model

13 Theory of groups 

13.1 Introduction
13.1.1 Definition of a group
13.1.2 The Cayley table
13.1.3 Conjugated elements, subgroups and classes
13.1.4 Isomorfism and homomorfism; representations
13.1.5 Reducible and irreducible representations
13.2 The fundamental orthogonality theorem
13.2.1 Schur’s lemma
13.2.2 The fundamental orthogonality theorem
13.2.3 Character
13.3 The relation with quantum mechanics
13.3.1 Representations, energy levels and degeneracy
13.3.2 Breaking of degeneracy by a perturbation
13.3.3 The construction of a base function
13.3.4 The direct product of representations
13.3.5 Clebsch-Gordan coefficients
13.3.6 Symmetric transformations of operators, irreducible tensor operators
13.3.7 The Wigner-Eckart theorem
13.4 Continuous groups
13.4.1 The 3-dimensional translation group
13.4.2 The 3-dimensional rotation group
13.4.3 Properties of continuous groups
13.5 The group SO(3)
13.6 Applications to quantum mechanics
13.6.1 Vectormodel for the addition of angular momentum
13.6.2 Irreducible tensor operators, matrixelements and selection rules
13.7 Applications to particle physics


14 Nuclear physics 

14.1 Nuclear forces
14.2 The shape of the nucleus
14.3 Radioactive decay
14.4 Scattering and nuclear reactions
14.4.1 Kinetic model
14.4.2 Quantum mechanical model for n-p scattering
14.4.3 Conservation of energy and momentum in nuclear reactions
14.5 Radiation dosimetry

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15 Quantum field theory & Particle physics 

15.1 Creation and annihilation operators
15.2 Classical and quantum fields
15.3 The interaction picture
15.4 Real scalar field in the interaction picture
15.5 Charged spin-0 particles, conservation of charge
15.6 Field functions for spin- 1
2 particles
15.7 Quantization of spin- 1
2 fields
15.8 Quantization of the electromagnetic field
15.9 Interacting fields and the S-matrix
15.10 Divergences and renormalization
15.11 Classification of elementary particles
15.12 P and CP-violation
15.13 The standard model
15.13.1 The electroweak theory
15.13.2 Spontaneous symmetry breaking: the Higgs mechanism
15.13.3 Quantumchromodynamics
15.14 Path integrals
15.15 Unification and quantum gravity


16 Astrophysics 

16.1 Determination of distances
16.2 Brightness and magnitudes
16.3 Radiation and stellar atmospheres
16.4 Composition and evolution of stars
16.5 Energy production in stars

The -operator 

The SI units 

Book PDF Details

Author:
J. C. A. Wavers
Name: PHYSICS FORMULATRY 
Pages: 108
Edition:
File Size: 748 KB
File Type: pdf
Language: English

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