PHYSICS-INTRODUCTION
Physics is one of the most wondrous of all subjects. It is a great achievement of man that today we know what is happening on the deepest level of matter and also the farthest reaches of space. The greatest minds have worked on trying to find out how the physical world works and with astounding imagination, effort and experimentation have revealed some fascinating secrets in the world.
It is Physics that also changed the world through being applied in Engineering. The base of Engineering is Physics. It ushered in the industrial revolution and that flame has not died till today. New inventions, explorations and discoveries keep on happening...
In this section we give you a deep understanding, appreciation and feeling for the laws of physics. We do not just bombard you with information. We actually take you through a process of asking questions and then we give answers that would surprise you, even shock you with their simplicity, richness and power. You will feel a precious feeling inside, an awakening and a joy because you would be able to hold the whole physical world in your perspective.
We have covered Mechanics, Sound, Fluids, Heat, Light, Electromagnetism and Atomic structure.
We are confident that if you go through the content carefully 2 times you will emerge with a new appreciation of the beauty, wonder and power of physics.
Happy learning and discovery!
CLASSICAL MECHANICS
CLASSICAL MECHANICS - CONSTRAINTS AND GENERALIZED COORDINATESCLASSICAL MECHANICS - D‘ALEMBERT’S PRINCIPLE AND LAGRANGE’S EQUATIONS
CLASSICAL MECHANICS - SYMMETRY TRANSFORMATIONS AND CONSERVATION LAWS
CLASSICAL MECHANICS - CALCULUS OF VARIATIONS
CLASSICAL MECHANICS - HAMILTON’S PRINCIPLE AND LAGRANGE’S EQUATION-I
CLASSICAL MECHANICS - MODULE NAME : HAMILTON’S PRINCIPLE AND LAGRANGE’S EQUATIONS-II
CLASSICAL MECHANICS - THE HAMILTON’S FORMALISM
CLASSICAL MECHANICS - HAMILTONIAN FORMALISM AND POISSON BRACKET-I
CLASSICAL MECHANICS - HAMILTONIAN FORMALISM AND POISSON BRACKET-II
CLASSICAL MECHANICS - CENTRAL-FIELD MOTION-I
CLASSICAL MECHANICS - CENTRAL FORCE MOTION-II
CLASSICAL MECHANICS - ELASTIC SCATTERING : SCATTERING CROSS-SECTION
CLASSICAL MECHANICS - SCATTERING FROM CENTRAL-FORCE FIELDS
CLASSICAL MECHANICS - SMALL OSCILLATIONS-I
CLASSICAL MECHANICS - SMALL OSCILLATIONS-II
CLASSICAL MECHANICS - SMALL OSCILLATIONS-III
CLASSICAL MECHANICS - ROTATING FRAME
CLASSICAL MECHANICS - MOTION OF RIGID BODY-I
CLASSICAL MECHANICS - MOTION OF RIGID BODY-II
CLASSICAL MECHANICS - MOTION OF RIGID BODY-III
CLASSICAL MECHANICS - CANONICAL TRANSFORMATIONS-I
CLASSICAL MECHANICS - CANONICAL TRANSFORMATIONS-II
CLASSICAL MECHANICS -HAMILTON-JACOBI EQUATION-I
CLASSICAL MECHANICS - SPECIAL THEORY OF RELATIVITY
CLASSICAL MECHANICS - CLASSICAL THEORY OF FIELDS-I
CLASSICAL MECHANICS - CLASSICAL THEORY OF FIELDS-II
CLASSICAL MECHANICS - LAGRANGIAN AND HAMILTONIAN OF A RELATIVISTIC PARTICLE
CLASSICAL MECHANICS - SOLITONS IN TWO DIMENSIONS
CLASSICAL MECHANICS - SOLITION AND SOLITARY WAVES
CLASSICAL MECHANICS - HAMILTON-JACOBI EQUATION: ACTION ANGLE VARIABLES
ASTRONOMY AND ASTROPHYSICS
ASTRONOMY AND ASTROPHYSICS - GENERAL ASTRONOMY
ASTRONOMY AND ASTROPHYSICS - COORDINATE SYSTEMS, MEASUREMENT OF TIME
ASTRONOMY AND ASTROPHYSICS - DIURNAL MOTION OF STARS
ASTRONOMY AND ASTROPHYSICS - MEASUREMENT OF TIME
ASTRONOMY AND ASTROPHYSICS - PHYSICAL PROPERTIES OF STARS
ASTRONOMY AND ASTROPHYSICS - STELLAR SPECTRA AND STELLAR CLASSIFICATION
ASTRONOMY AND ASTROPHYSICS - STELLAR SPECTRA AND STELLAR CLASSIFICATION-II
ASTRONOMY AND ASTROPHYSICS - SPECTRAL CLASSIFICATION – SAHA’S IONIZATION FORMULA
ASTRONOMY AND ASTROPHYSICS - H. R. DIAGRAM
ASTRONOMY AND ASTROPHYSICS - H. R. DIAGRAM-II
ASTRONOMY AND ASTROPHYSICS - H. R. DIAGRAM – COLOUR-MAGNITUDE DIAGRAM
ASTRONOMY AND ASTROPHYSICS - MASSES OF STARS
ASTRONOMY AND ASTROPHYSICS - CLOSE BINARIES, MASS-LUMINOSITY RELATION OF STARS
ASTRONOMY AND ASTROPHYSICS - THE SUN – BASIC DATA
ASTRONOMY AND ASTROPHYSICS - THE SUN – BASIC DATA-II
ASTRONOMY AND ASTROPHYSICS - INTRODUCTION TO TELESCOPES
ASTRONOMY AND ASTROPHYSICS - BASIC OPTICAL DEFINITIONS
ASTRONOMY AND ASTROPHYSICS - TELESCOPES AND OBSERVATIONS
ASTRONOMY AND ASTROPHYSICS - STELLAR PHOTOMETER
ASTRONOMY AND ASTROPHYSICS - STELLAR PHOTOMETER-II
ASTRONOMY AND ASTROPHYSICS – ASTROSAT
ASTRONOMY AND ASTROPHYSICS – IR ASTRONOMY
ASTRONOMY AND ASTROPHYSICS – VARIABLE STAR FORMATION IN THE UNIVERSE
ASTRONOMY AND ASTROPHYSICS – PHOTOMETRIC TECHNIQUES AND PHOTOMETRIC TYPES
ASTRONOMY AND ASTROPHYSICS – CLASSIFICATION OF VARIABLE STARS
ASTRONOMY AND ASTROPHYSICS - COORDINATE SYSTEMS, MEASUREMENT OF TIME
ASTRONOMY AND ASTROPHYSICS - DIURNAL MOTION OF STARS
ASTRONOMY AND ASTROPHYSICS - MEASUREMENT OF TIME
ASTRONOMY AND ASTROPHYSICS - PHYSICAL PROPERTIES OF STARS
ASTRONOMY AND ASTROPHYSICS - STELLAR SPECTRA AND STELLAR CLASSIFICATION
ASTRONOMY AND ASTROPHYSICS - STELLAR SPECTRA AND STELLAR CLASSIFICATION-II
ASTRONOMY AND ASTROPHYSICS - SPECTRAL CLASSIFICATION – SAHA’S IONIZATION FORMULA
ASTRONOMY AND ASTROPHYSICS - H. R. DIAGRAM
ASTRONOMY AND ASTROPHYSICS - H. R. DIAGRAM-II
ASTRONOMY AND ASTROPHYSICS - H. R. DIAGRAM – COLOUR-MAGNITUDE DIAGRAM
ASTRONOMY AND ASTROPHYSICS - MASSES OF STARS
ASTRONOMY AND ASTROPHYSICS - CLOSE BINARIES, MASS-LUMINOSITY RELATION OF STARS
ASTRONOMY AND ASTROPHYSICS - THE SUN – BASIC DATA
ASTRONOMY AND ASTROPHYSICS - THE SUN – BASIC DATA-II
ASTRONOMY AND ASTROPHYSICS - INTRODUCTION TO TELESCOPES
ASTRONOMY AND ASTROPHYSICS - BASIC OPTICAL DEFINITIONS
ASTRONOMY AND ASTROPHYSICS - TELESCOPES AND OBSERVATIONS
ASTRONOMY AND ASTROPHYSICS - STELLAR PHOTOMETER
ASTRONOMY AND ASTROPHYSICS - STELLAR PHOTOMETER-II
ASTRONOMY AND ASTROPHYSICS – ASTROSAT
ASTRONOMY AND ASTROPHYSICS – IR ASTRONOMY
ASTRONOMY AND ASTROPHYSICS – VARIABLE STAR FORMATION IN THE UNIVERSE
ASTRONOMY AND ASTROPHYSICS – PHOTOMETRIC TECHNIQUES AND PHOTOMETRIC TYPES
ASTRONOMY AND ASTROPHYSICS – CLASSIFICATION OF VARIABLE STARS
ASTRONOMY AND ASTROPHYSICS – PHYSICAL PROPERTIES OF STARS
ASTRONOMY AND ASTROPHYSICS – PHYSICAL CHARACTERISTICS OF STARS
ASTRONOMY AND ASTROPHYSICS – COLOUR INDEX
ASTRONOMY AND ASTROPHYSICS – BOLOMETRIC MAGNITUDE AND BOLOMETRIC CORRECTION
MATHEMATICAL PHYSICS
MATHEMATICAL PHYSICS – GROUP THEORY : AXIOMS, PROPERTIES
MATHEMATICAL PHYSICS – SUBGROUPS, CLASSES, COSETS
MATHEMATICAL PHYSICS – FACTOR GROUPS, NORMAL SUBGROUPS, DIRECT PRODUCT OF GROUPS
MATHEMATICAL PHYSICS – MAPPING : HOMOMORPHISM AND LSOMORPHISM
MATHEMATICAL PHYSICS – GROUP REPRESENTATION
MATHEMATICAL PHYSICS – THREE DIMENSIONAL ROTATION GROUP
MATHEMATICAL PHYSICS – REPRESENTATIONS OF ROTATION GROUP
MATHEMATICAL PHYSICS – LIE ALGEBRA : REPRESENTATIONS, CLEBSCH-GORDON COEFFICIENTS, ISOSPIN
MATHEMATICAL PHYSICS – SYMMETRY IN MOLECULES AND CRYSTALS-I
MATHEMATICAL PHYSICS – SYMMETRY IN MOLECULES AND CRYSTALS-II
MATHEMATICAL PHYSICS – REPRESENTATION OF POINT GROUP AND CHARACTER TABLE
MATHEMATICAL PHYSICS – CRYSTAL STRUCTURE AND SPACE GROUPS
MATHEMATICAL PHYSICS – GROUP THEORY IN QUANTUM MECHANICS-II
MATHEMATICAL PHYSICS – GROUP THEORY IN QUANTUM MECHANICS-III
MATHEMATICAL PHYSICS – SUBGROUPS, CLASSES, COSETS
MATHEMATICAL PHYSICS – FACTOR GROUPS, NORMAL SUBGROUPS, DIRECT PRODUCT OF GROUPS
MATHEMATICAL PHYSICS – MAPPING : HOMOMORPHISM AND LSOMORPHISM
MATHEMATICAL PHYSICS – GROUP REPRESENTATION
MATHEMATICAL PHYSICS – INFINITE AND CONTINUOUS GROUPS
MATHEMATICAL PHYSICS – THREE DIMENSIONAL ROTATION GROUP
MATHEMATICAL PHYSICS – REPRESENTATIONS OF ROTATION GROUP
MATHEMATICAL PHYSICS – LIE ALGEBRA : REPRESENTATIONS, CLEBSCH-GORDON COEFFICIENTS, ISOSPIN
MATHEMATICAL PHYSICS – SYMMETRY IN MOLECULES AND CRYSTALS-I
MATHEMATICAL PHYSICS – SYMMETRY IN MOLECULES AND CRYSTALS-II
MATHEMATICAL PHYSICS – REPRESENTATION OF POINT GROUP AND CHARACTER TABLE
MATHEMATICAL PHYSICS – CRYSTAL STRUCTURE AND SPACE GROUPS
MATHEMATICAL PHYSICS – GROUP THEORY IN QUANTUM MECHANICS-I
MATHEMATICAL PHYSICS – GROUP THEORY IN QUANTUM MECHANICS-II
MATHEMATICAL PHYSICS – GROUP THEORY IN QUANTUM MECHANICS-III
MATHEMATICAL PHYSICS – ALGEBRAIC, DIFFERENTIAL AND INTEGRAL EQUATIONS
MATHEMATICAL PHYSICS – CLASSIFICATION OF INTEGRAL EQUATIONS, RELATIONSHIP BETWEEN INTEGRAL AND DIFFERENTIAL EQ.. I
MATHEMATICAL PHYSICS – CLASSIFICATION OF INTEGRAL EQUATIONS, RELATIONSHIP BETWEEN INTEGRAL AND DIFFERENTIAL EQ.. II
MATHEMATICAL PHYSICS – USING INTEGRAL TRANSFORMS FOR SOLVING INTEGRAL EQUATIONS: LAPLACE
MATHEMATICAL PHYSICS – USING MELLIN AND FOURIER TRANSFORMS IN SOLVING INTEGRAL EQUATIONS
MATHEMATICAL PHYSICS – EXISTENCE OF SOLUTIONS: VOLTERRA EQUATIONS
MATHEMATICAL PHYSICS – FREDHOLM EQUATIONS : NEUMANN SERIES, DEGENERATE KERNALS
MATHEMATICAL PHYSICS – FREDHOLM EQUATIONS : GENERAL SOLUTION
MATHEMATICAL PHYSICS – GRAM SCHMIDT THEORY
MATHEMATICAL PHYSICS – GRAM SCHMIDT THEORY – II
MATHEMATICAL PHYSICS – EXPANSION THEOREM
MATHEMATICAL PHYSICS – BOUNDARY VALUE
MATHEMATICAL PHYSICS – SOLUTION OF DIFFERENTIAL EQUATIONS UNDER SPECIFIC BOUNDARY CONDITIONS
SOLID STATE PHYSICS - SECOND QUANTIZATION
SOLID STATE PHYSICS - LOCAL MAGNETIC MOMENT, KONDO EFFECT AND HEAVY FERMION SYSTEM
SOLID STATE PHYSICS - SUPERCONDUCTIVITY: BASIC PROPERTIES
SOLID STATE PHYSICS - THERMODYNAMICS OF SUPERCONDUCTORS AND LONDON EQUATION
SOLID STATE PHYSICS - COOPER PAIR AND BCS THEORY
SOLID STATE PHYSICS - VARIATIONAL METHOD AND BCS GAP PARAMETER AT FINITE TEMPERATURE
SOLID STATE PHYSICS - THE GINZBURG-LANDAU MODEL
SOLID STATE PHYSICS - THE JOSEPHSON EFFECT
SOLID STATE PHYSICS - QUANTUM HALL EFFECT
SOLID STATE PHYSICS - LANDAU FERMI LIQUID THEORY
SOLID STATE PHYSICS - FERMI SURFACE AND ITS STUDY BY CYCLOTRON RESONANCE - I
SOLID STATE PHYSICS - CYCLOTRON RESONANCES AND DE HAAS-VAN ALPHEN EFFECT
STATISTICAL MECHANICS - EQUILIBRIUM, THERMODYNAMIC PARAMETERS AND RESPONSE FUNCTIONS
STATISTICAL MECHANICS - AN OVERVIEW OF THERMODYNAMICS-I
STATISTICAL MECHANICS - AN OVERVIEW OF THERMODYNAMICS-II
STATISTICAL MECHANICS – STATISTICAL FOUNDATION OF THERMODYNAMICS
STATISTICAL MECHANICS – STUDY OF TWO PROTOTYPE PHYSICAL MODELS FROM STATISTICAL ROUTE:AN IDEAL GAS AND A COLLECTION OF N THREE DIMENSIONAL CLASSICAL HARMONIC OSCILLATORS
STATISTICAL MECHANICS – GIBBS PARADOX AND INDISTINGUISHABILITY OF PARTICLES
STATISTICAL MECHANICS – ENSEMBLE THEORY(CLASSICAL) – I (CONCEPT OF PHASE SPACE AND ITS PROPERTIES)
STATISTICAL MECHANICS – ENSEMBLE THEORY(CLASSICAL) – II (ENSEMBLE,
LIOUVILLE’S THEOREM AND ERGODICITY)
STATISTICAL MECHANICS – ENSEMBLE THEORY(CLASSICAL) – III (MICRO-CANONICAL ENSEMBLE)
STATISTICAL MECHANICS – ENSEMBLE THEORY(CLASSICAL)-IV(CANONICAL ENSEMBLE, IDEA OF PARTITION FUNCTIONAND APPLICATIONS)
STATISTICAL MECHANICS – ENSEMBLE THEORY (CLASSICAL)-V (CANONICAL ENSEMBLE( MORE APPLICATIONS)
STATISTICAL MECHANICS – ENSEMBLE THEORY (CLASSICAL) -VI (GRAND CANONICAL ENSEMBLE AND ITS APPLICATIONS)
STATISTICAL MECHANICS – ENSEMBLE THEORY (CLASSICAL) –VII
STATISTICAL MECHANICS – ENSEMBLE THEORY ((QUANTUM) –I (QUANTUM MECHANICAL FORMULATION OF STATISTICAL MECHANICS)
STATISTICAL MECHANICS – ENSEMBLE THEORY ((QUANTUM) –II (IDEAL FERMI GAS)
STATISTICAL MECHANICS – ENSEMBLE THEORY ((QUANTUM) –II (IDEAL BOSE GAS)
STATISTICAL MECHANICS – ENSEMBLE THEORY ((QUANTUM) –II(2) (IDEAL BOSE GAS APPLICATIONS) (PHOTON GAS, PHONON GAS, LIQUID 4HE)
STATISTICAL MECHANICS – FERMI GAS APPLICATIONS (WHITE DWARF STARS, THOMAS FERMI MODEL, QUANTUM HALL EFFECT)
STATISTICAL MECHANICS – CLASSICAL SYSTEM OF INTERACTING PARTICLES-I (MODEL POTENTIALS, HARD SPHERE GAS, HARD SPHERE GAS WITH SMALL ATTRACTIVE INTERACTION, PERTURBATION EXPANSION, DERIVATION OF VANDER WAAL’S EQUATION OF STATE)
STATISTICAL MECHANICS – CLASSICAL SYSTEM OF INTERACTING PARTICLES-II (MAYER’S CLUSTER EXPANSION, DERIVATION OF VIRIAL COEFFICIENTS)
STATISTICAL MECHANICS – CLASSICAL SYSTEM OF INTERACTING PARTICLES-III (UNIVERSAL BEHAVIOR OF SECOND VIRIAL COEFFICIENT, MODEL POTENTIALS, DERIVATION OF VIRIAL COEFFICIENTS AND VAN DER WAAL’S EQUATION OF STATE )
ELECTRONICS - METAL-SEMICONDUCTOR JUNCTIONS, METAL-OXIDE SEMICONDUCTOR JUNCTIONS
ELECTRONICS – JFET, MESFET
ELECTRONICS – MOSFET
ELECTRONICS – MULTI VIBRATORS
ELECTRONICS – POWER SUPPLY
ELECTRONICS – PLL, LOCK IN AMPLIFIER
ELECTRONICS – TUNNEL DIODE
ELECTRONICS – TRANSFER ELECTRON DEVICES (GUNN DIODE)
ELECTRONICS – AVALANCHE TRANSIT TIME DEVICES (REED, IMPATT DIODES, PARAMETRIC DEVICES)
ELECTRONICS – RADIATIVE TRANSITION, OPTICAL ABSORPTION, LED
ELECTRONICS – SEMICONDUCTOR LASERS, HETEROSTRUCTURE
ELECTRONICS – PHOTODETECTOR, P-I-N PHOTODIODE, AND AVALANCHE PHOTODIODE
ELECTRONICS – CHARGE COUPLED DEVICES (CCD)
ELECTRONICS – MOS MEMORY DEVICES
ELECTRONICS – SENSORS AND TRANSDUCERS
ELECTRONICS – TEMPERATURE TRANSDUCERS
ELECTRONICS – PIEZOELECTRIC, INDUCTIVE AND CAPACITIVE TRANSDUCERS
ELECTRONICS – EO AND MO EFFECT
ELECTRONICS – VACUUM BASED THIN FILM DEPOSITION TECHNIQUES
ELECTRONICS – DIFFUSION OF IMPURITIES (VLSI)
ELECTRONICS – TRANSMISSION LINES-1
ELECTRONICS – TRANSMISSION LINES-2
ELECTRONICS – STANDING WAVE PROPAGATION IN TRANSMISSION LINES
ELECTRONICS – SIGNALS AND LINEAR TIME INVARIANT SYSTEMS
ELECTRONICS – MODULATION OF SIGNALS
ELECTRONICS – SNR (SIGNAL TO NOISE RATIO) IN INSTRUMENTATION AND COMMUNICATION
ELECTRONICS – DIGITAL SIGNAL PROCESSING-1
ELECTRONICS – DIGITAL SIGNAL PROCESSING-II
ELECTRONICS – MOS DEVICE
ELECTRONICS – INTER-DIGITAL TRANSDUCERS
NUCLEAR AND PARTICLE PHYSICS - BASIC NUCLEAR PROPERTIES-I
NUCLEAR AND PARTICLE PHYSICS - BASIC NUCLEAR PROPERTIES-II & VI
NUCLEAR AND PARTICLE PHYSICS - BASIC NUCLEAR PROPERTIES-III
NUCLEAR AND PARTICLE PHYSICS - BASIC NUCLEAR PROPERTIES-IV
NUCLEAR AND PARTICLE PHYSICS - BASIC NUCLEAR PROPERTIES-V
NUCLEAR AND PARTICLE PHYSICS - BASIC NUCLEAR PROPERTIES- VI
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR FORCE AND ITS PROPERTIES-I
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR FORCE AND ITS PROPERTIES-1I
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR FORCE AND ITS PROPERTIES-1II
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR FORCE AND ITS PROPERTIES-IV
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR FORCE AND ITS PROPERTIES-V
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR FORCE AND ITS PROPERTIES-VI
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR MODELS -I
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR MODELS -II
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR MODELS -III
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR MODELS -IV
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR MODELS -V
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR MODELS -VI
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR MODELS -VII
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR MODELS -VIII
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR MODELS -IX
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR REACTIONS –I
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR REACTIONS -II
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR REACTIONS -III
NUCLEAR AND PARTICLE PHYSICS - : RADIATION DETECTOR–I
NUCLEAR AND PARTICLE PHYSICS - : RADIATION DETECTOR–II
NUCLEAR AND PARTICLE PHYSICS - : RADIATION DETECTOR–III
NUCLEAR AND PARTICLE PHYSICS - : RADIATION DETECTOR–IV
NUCLEAR AND PARTICLE PHYSICS - : RADIATION DETECTOR–V
NUCLEAR AND PARTICLE PHYSICS - : RADIATION DETECTOR–VI
NUCLEAR AND PARTICLE PHYSICS - : RADIATION DETECTOR–VII
PRESS BELOW LESSON NAMES(TEXT)
1. MECHANICS 2. SOUND 3. LIQUIDS 4. GASES 5. HEAT 6. LIGHT
7. ELECTROMAGNETISN 8. ATOMIC STRUCTURE 9. OUR UNIVERSE
PRESS BELOW LESSON NAMES(VIDEO LESSONS)
1. MECHANICS 2. SOUND 3. LIQUIDS 4. GASES 5. HEAT
6. LIGHT 7. ELECTROMAGNETISN 8. ATOMIC STRUCTURE
9. OUR UNIVERSE
MATHEMATICAL PHYSICS – REPRESENTATIONS OF ROTATION GROUP
MATHEMATICAL PHYSICS – LIE ALGEBRA : REPRESENTATIONS, CLEBSCH-GORDON COEFFICIENTS, ISOSPIN
MATHEMATICAL PHYSICS – SYMMETRY IN MOLECULES AND CRYSTALS-I
MATHEMATICAL PHYSICS – SYMMETRY IN MOLECULES AND CRYSTALS-II
MATHEMATICAL PHYSICS – REPRESENTATION OF POINT GROUP AND CHARACTER TABLE
MATHEMATICAL PHYSICS – CRYSTAL STRUCTURE AND SPACE GROUPS
MATHEMATICAL PHYSICS – GROUP THEORY IN QUANTUM MECHANICS-I
MATHEMATICAL PHYSICS – GROUP THEORY IN QUANTUM MECHANICS-II
MATHEMATICAL PHYSICS – GROUP THEORY IN QUANTUM MECHANICS-III
MATHEMATICAL PHYSICS – ALGEBRAIC, DIFFERENTIAL AND INTEGRAL EQUATIONS
MATHEMATICAL PHYSICS – CLASSIFICATION OF INTEGRAL EQUATIONS, RELATIONSHIP BETWEEN INTEGRAL AND DIFFERENTIAL EQ.. I
MATHEMATICAL PHYSICS – CLASSIFICATION OF INTEGRAL EQUATIONS, RELATIONSHIP BETWEEN INTEGRAL AND DIFFERENTIAL EQ.. II
MATHEMATICAL PHYSICS – USING INTEGRAL TRANSFORMS FOR SOLVING INTEGRAL EQUATIONS: LAPLACE
MATHEMATICAL PHYSICS – USING MELLIN AND FOURIER TRANSFORMS IN SOLVING INTEGRAL EQUATIONS
MATHEMATICAL PHYSICS – EXISTENCE OF SOLUTIONS: VOLTERRA EQUATIONS
MATHEMATICAL PHYSICS – FREDHOLM EQUATIONS : NEUMANN SERIES, DEGENERATE KERNALS
MATHEMATICAL PHYSICS – FREDHOLM EQUATIONS : GENERAL SOLUTION
MATHEMATICAL PHYSICS – GRAM SCHMIDT THEORY
MATHEMATICAL PHYSICS – GRAM SCHMIDT THEORY – II
MATHEMATICAL PHYSICS – EXPANSION THEOREM
MATHEMATICAL PHYSICS – BOUNDARY VALUE
MATHEMATICAL PHYSICS – SOLUTION OF DIFFERENTIAL EQUATIONS UNDER SPECIFIC BOUNDARY CONDITIONS
PHYSICS AT NANOSCALE-I
PHYSICS AT NANOSCALE-I - WHY DO SOME PROPERTIES CHANGE AT NANOSCALE?
PHYSICS AT NANOSCALE-I - PROPERTIES AT NANOSCALE
PHYSICS AT NANOSCALE-I - EXAMPLES OF CHANGES IN PROPERTIES AT NANOSCALE AND INTRODUCTION TO MESOSCOPIC PHYSICS
PHYSICS AT NANOSCALE-I - SCALING LAWS
PHYSICS AT NANOSCALE-I - SCALING IN EM
PHYSICS AT NANOSCALE-I - MESOSCOPIC PHYSICS
PHYSICS AT NANOSCALE-I - CONFINEMENT OF A PARTICLE IN A BOX AND IN 3D (QUANTUM DOT)
PHYSICS AT NANOSCALE-I - CALCULATION OF DENSITY OF STATES (DOS)
PHYSICS AT NANOSCALE-I - DENSITY OF STATES FOR SOME NANOSTRUCTURES AND TWO DIMENSIONAL ELECTRON GAS
PHYSICS AT NANOSCALE-I - FORMATION OF HETERO STRUCTURE
PHYSICS AT NANOSCALE-I - STRAIN AND STRESS AT HETEROINTERFACE
PHYSICS AT NANOSCALE-I - QUANTUM WELL AND SUPERLATTICE
PHYSICS AT NANOSCALE-I - PERPENDICULAR TRANSPORT IN SINGLE AND MULTIPLE HETEROSTRUCTURES
PHYSICS AT NANOSCALE-I - CARBON BASED NANOSTRUCTURES
PHYSICS AT NANOSCALE-I - HYBRIDIZATION IN CARBON BASED MOLECULES
PHYSICS AT NANOSCALE-I - ALLOTROPY OF CARBON AND CARBON BASED NANOSTRUCTURES
PHYSICS AT NANOSCALE-I - TIGHT BINDING METHOD FOR ELECTRONIC STRUCTURE CALCULATION
PHYSICS AT NANOSCALE-I - BAND STRUCTURE OF GRAPHENE USING TIGHT BINDING METHOD
PHYSICS AT NANOSCALE-I - ELECTRONIC STRUCTURE OF CARBON NANOTUBE
PHYSICS AT NANOSCALE-I - SEMICONDUCTOR NANOPARTICLE-1
PHYSICS AT NANOSCALE-I - SEMICONDUCTOR NANOPARTICLE-2
PHYSICS AT NANOSCALE-I - SEMICONDUCTOR NANOPARTICLE-3
PHYSICS AT NANOSCALE-I - SEMICONDUCTOR NANOPARTICLE-4
PHYSICS AT NANOSCALE-I - NANOPARTICELS-1
PHYSICS AT NANOSCALE-I - NANOPARTICELS-2
PHYSICS AT NANOSCALE-I - NANOPARTICELS-3
PHYSICS AT NANOSCALE-I - NANOPARTICELS-4
PHYSICS AT NANOSCALE-I - NANOPARTICELS-5
PHYSICS AT NANOSCALE-I - NANOPARTICELS-6
PHYSICS AT NANOSCALE-I - NANOPARTICELS-7
PHYSICS AT NANOSCALE-I - PROPERTIES AT NANOSCALE
PHYSICS AT NANOSCALE-I - EXAMPLES OF CHANGES IN PROPERTIES AT NANOSCALE AND INTRODUCTION TO MESOSCOPIC PHYSICS
PHYSICS AT NANOSCALE-I - SCALING LAWS
PHYSICS AT NANOSCALE-I - SCALING IN EM
PHYSICS AT NANOSCALE-I - MESOSCOPIC PHYSICS
PHYSICS AT NANOSCALE-I - CONFINEMENT OF A PARTICLE IN A BOX AND IN 3D (QUANTUM DOT)
PHYSICS AT NANOSCALE-I - CALCULATION OF DENSITY OF STATES (DOS)
PHYSICS AT NANOSCALE-I - DENSITY OF STATES FOR SOME NANOSTRUCTURES AND TWO DIMENSIONAL ELECTRON GAS
PHYSICS AT NANOSCALE-I - FORMATION OF HETERO STRUCTURE
PHYSICS AT NANOSCALE-I - STRAIN AND STRESS AT HETEROINTERFACE
PHYSICS AT NANOSCALE-I - QUANTUM WELL AND SUPERLATTICE
PHYSICS AT NANOSCALE-I - PERPENDICULAR TRANSPORT IN SINGLE AND MULTIPLE HETEROSTRUCTURES
PHYSICS AT NANOSCALE-I - CARBON BASED NANOSTRUCTURES
PHYSICS AT NANOSCALE-I - HYBRIDIZATION IN CARBON BASED MOLECULES
PHYSICS AT NANOSCALE-I - ALLOTROPY OF CARBON AND CARBON BASED NANOSTRUCTURES
PHYSICS AT NANOSCALE-I - TIGHT BINDING METHOD FOR ELECTRONIC STRUCTURE CALCULATION
PHYSICS AT NANOSCALE-I - BAND STRUCTURE OF GRAPHENE USING TIGHT BINDING METHOD
PHYSICS AT NANOSCALE-I - ELECTRONIC STRUCTURE OF CARBON NANOTUBE
PHYSICS AT NANOSCALE-I - SEMICONDUCTOR NANOPARTICLE-1
PHYSICS AT NANOSCALE-I - SEMICONDUCTOR NANOPARTICLE-2
PHYSICS AT NANOSCALE-I - SEMICONDUCTOR NANOPARTICLE-3
PHYSICS AT NANOSCALE-I - SEMICONDUCTOR NANOPARTICLE-4
PHYSICS AT NANOSCALE-I - NANOPARTICELS-1
PHYSICS AT NANOSCALE-I - NANOPARTICELS-2
PHYSICS AT NANOSCALE-I - NANOPARTICELS-3
PHYSICS AT NANOSCALE-I - NANOPARTICELS-4
PHYSICS AT NANOSCALE-I - NANOPARTICELS-5
PHYSICS AT NANOSCALE-I - NANOPARTICELS-6
PHYSICS AT NANOSCALE-I - NANOPARTICELS-7
SOLID STATE THEORY
SOLID STATE PHYSICS - LATTICE DYNAMICS IN THREE DIMENSIONS
SOLID STATE PHYSICS - QUANTIZATION OF LATTICE VIBRATIONS
SOLID STATE PHYSICS - HEAT CAPACITY OF SOLIDS-I
SOLID STATE PHYSICS - HEAT CAPACITY OF SOLIDS-II
SOLID STATE PHYSICS - THERMAL EXPANSION AND LINDEMANN MELTING FORMULA
SOLID STATE PHYSICS – ELECTRON IN PERIODIC SOLID - I
SOLID STATE PHYSICS – ELECTRON IN PERIODIC SOLID – II
SOLID STATE PHYSICS – ELECTRON IN PERIODIC SOLID – TIGHT BINDING MODEL
SOLID STATE PHYSICS – HEAT CAPACITY SOLID – I
SOLID STATE PHYSICS – DIAMAGNETISM AND PARAMAGNETISM OF ATOMS – I
SOLID STATE PHYSICS – DIAMAGNETISM AND PARAMAGNETISM OF ATOMS – II
SOLID STATE PHYSICS – VAN VLECK AND PAULI PARAMAGNETISM
SOLID STATE PHYSICS – MAGNETIC EXCHANGE INTERACTION
SOLID STATE PHYSICS – FERROMAGNETIC HEISENBERG MODEL
SOLID STATE PHYSICS – EXCITATIONS: SPIN WAVES
SOLID STATE PHYSICS - ANTIFERROMAGNETIC HEISENBERG MODEL
SOLID STATE PHYSICS - STONER MODEL
SOLID STATE PHYSICS - QUANTIZATION OF LATTICE VIBRATIONS
SOLID STATE PHYSICS - HEAT CAPACITY OF SOLIDS-I
SOLID STATE PHYSICS - HEAT CAPACITY OF SOLIDS-II
SOLID STATE PHYSICS - THERMAL EXPANSION AND LINDEMANN MELTING FORMULA
SOLID STATE PHYSICS – ELECTRON IN PERIODIC SOLID - I
SOLID STATE PHYSICS – ELECTRON IN PERIODIC SOLID – II
SOLID STATE PHYSICS – ELECTRON IN PERIODIC SOLID – TIGHT BINDING MODEL
SOLID STATE PHYSICS – HEAT CAPACITY SOLID – I
SOLID STATE PHYSICS – DIAMAGNETISM AND PARAMAGNETISM OF ATOMS – I
SOLID STATE PHYSICS – DIAMAGNETISM AND PARAMAGNETISM OF ATOMS – II
SOLID STATE PHYSICS – VAN VLECK AND PAULI PARAMAGNETISM
SOLID STATE PHYSICS – MAGNETIC EXCHANGE INTERACTION
SOLID STATE PHYSICS – FERROMAGNETIC HEISENBERG MODEL
SOLID STATE PHYSICS – EXCITATIONS: SPIN WAVES
SOLID STATE PHYSICS - ANTIFERROMAGNETIC HEISENBERG MODEL
SOLID STATE PHYSICS - STONER MODEL
SOLID STATE PHYSICS - LOCAL MAGNETIC MOMENT, KONDO EFFECT AND HEAVY FERMION SYSTEM
SOLID STATE PHYSICS - SUPERCONDUCTIVITY: BASIC PROPERTIES
SOLID STATE PHYSICS - THERMODYNAMICS OF SUPERCONDUCTORS AND LONDON EQUATION
SOLID STATE PHYSICS - COOPER PAIR AND BCS THEORY
SOLID STATE PHYSICS - VARIATIONAL METHOD AND BCS GAP PARAMETER AT FINITE TEMPERATURE
SOLID STATE PHYSICS - THE GINZBURG-LANDAU MODEL
SOLID STATE PHYSICS - THE JOSEPHSON EFFECT
SOLID STATE PHYSICS - QUANTUM HALL EFFECT
SOLID STATE PHYSICS - LANDAU FERMI LIQUID THEORY
SOLID STATE PHYSICS - FERMI SURFACE AND ITS STUDY BY CYCLOTRON RESONANCE - I
SOLID STATE PHYSICS - CYCLOTRON RESONANCES AND DE HAAS-VAN ALPHEN EFFECT
STATISTICAL MECHANICS
STATISTICAL MECHANICS - STATISTICAL MECHANICS: AN INTRODUCTIONSTATISTICAL MECHANICS - EQUILIBRIUM, THERMODYNAMIC PARAMETERS AND RESPONSE FUNCTIONS
STATISTICAL MECHANICS - AN OVERVIEW OF THERMODYNAMICS-I
STATISTICAL MECHANICS - AN OVERVIEW OF THERMODYNAMICS-II
STATISTICAL MECHANICS – STATISTICAL FOUNDATION OF THERMODYNAMICS
STATISTICAL MECHANICS – STUDY OF TWO PROTOTYPE PHYSICAL MODELS FROM STATISTICAL ROUTE:AN IDEAL GAS AND A COLLECTION OF N THREE DIMENSIONAL CLASSICAL HARMONIC OSCILLATORS
STATISTICAL MECHANICS – GIBBS PARADOX AND INDISTINGUISHABILITY OF PARTICLES
STATISTICAL MECHANICS – ENSEMBLE THEORY(CLASSICAL) – I (CONCEPT OF PHASE SPACE AND ITS PROPERTIES)
STATISTICAL MECHANICS – ENSEMBLE THEORY(CLASSICAL) – II (ENSEMBLE,
LIOUVILLE’S THEOREM AND ERGODICITY)
STATISTICAL MECHANICS – ENSEMBLE THEORY(CLASSICAL) – III (MICRO-CANONICAL ENSEMBLE)
STATISTICAL MECHANICS – ENSEMBLE THEORY(CLASSICAL)-IV(CANONICAL ENSEMBLE, IDEA OF PARTITION FUNCTIONAND APPLICATIONS)
STATISTICAL MECHANICS – ENSEMBLE THEORY (CLASSICAL)-V (CANONICAL ENSEMBLE( MORE APPLICATIONS)
STATISTICAL MECHANICS – ENSEMBLE THEORY (CLASSICAL) -VI (GRAND CANONICAL ENSEMBLE AND ITS APPLICATIONS)
STATISTICAL MECHANICS – ENSEMBLE THEORY (CLASSICAL) –VII
STATISTICAL MECHANICS – ENSEMBLE THEORY ((QUANTUM) –I (QUANTUM MECHANICAL FORMULATION OF STATISTICAL MECHANICS)
STATISTICAL MECHANICS – ENSEMBLE THEORY ((QUANTUM) –II (IDEAL FERMI GAS)
STATISTICAL MECHANICS – ENSEMBLE THEORY ((QUANTUM) –II (IDEAL BOSE GAS)
STATISTICAL MECHANICS – ENSEMBLE THEORY ((QUANTUM) –II(2) (IDEAL BOSE GAS APPLICATIONS) (PHOTON GAS, PHONON GAS, LIQUID 4HE)
STATISTICAL MECHANICS – FERMI GAS APPLICATIONS (WHITE DWARF STARS, THOMAS FERMI MODEL, QUANTUM HALL EFFECT)
STATISTICAL MECHANICS – CLASSICAL SYSTEM OF INTERACTING PARTICLES-I (MODEL POTENTIALS, HARD SPHERE GAS, HARD SPHERE GAS WITH SMALL ATTRACTIVE INTERACTION, PERTURBATION EXPANSION, DERIVATION OF VANDER WAAL’S EQUATION OF STATE)
STATISTICAL MECHANICS – CLASSICAL SYSTEM OF INTERACTING PARTICLES-II (MAYER’S CLUSTER EXPANSION, DERIVATION OF VIRIAL COEFFICIENTS)
STATISTICAL MECHANICS – CLASSICAL SYSTEM OF INTERACTING PARTICLES-III (UNIVERSAL BEHAVIOR OF SECOND VIRIAL COEFFICIENT, MODEL POTENTIALS, DERIVATION OF VIRIAL COEFFICIENTS AND VAN DER WAAL’S EQUATION OF STATE )
ELECTRONICS
ELECTRONICS - REVIEW OF p-n JUNCTION AND OVERVIEW OF BJTELECTRONICS - METAL-SEMICONDUCTOR JUNCTIONS, METAL-OXIDE SEMICONDUCTOR JUNCTIONS
ELECTRONICS – JFET, MESFET
ELECTRONICS – MOSFET
ELECTRONICS – MULTI VIBRATORS
ELECTRONICS – POWER SUPPLY
ELECTRONICS – PLL, LOCK IN AMPLIFIER
ELECTRONICS – TUNNEL DIODE
ELECTRONICS – TRANSFER ELECTRON DEVICES (GUNN DIODE)
ELECTRONICS – AVALANCHE TRANSIT TIME DEVICES (REED, IMPATT DIODES, PARAMETRIC DEVICES)
ELECTRONICS – RADIATIVE TRANSITION, OPTICAL ABSORPTION, LED
ELECTRONICS – SEMICONDUCTOR LASERS, HETEROSTRUCTURE
ELECTRONICS – PHOTODETECTOR, P-I-N PHOTODIODE, AND AVALANCHE PHOTODIODE
ELECTRONICS – CHARGE COUPLED DEVICES (CCD)
ELECTRONICS – MOS MEMORY DEVICES
ELECTRONICS – SENSORS AND TRANSDUCERS
ELECTRONICS – TEMPERATURE TRANSDUCERS
ELECTRONICS – PIEZOELECTRIC, INDUCTIVE AND CAPACITIVE TRANSDUCERS
ELECTRONICS – EO AND MO EFFECT
ELECTRONICS – VACUUM BASED THIN FILM DEPOSITION TECHNIQUES
ELECTRONICS – DIFFUSION OF IMPURITIES (VLSI)
ELECTRONICS – TRANSMISSION LINES-1
ELECTRONICS – TRANSMISSION LINES-2
ELECTRONICS – STANDING WAVE PROPAGATION IN TRANSMISSION LINES
ELECTRONICS – SIGNALS AND LINEAR TIME INVARIANT SYSTEMS
ELECTRONICS – MODULATION OF SIGNALS
ELECTRONICS – SNR (SIGNAL TO NOISE RATIO) IN INSTRUMENTATION AND COMMUNICATION
ELECTRONICS – DIGITAL SIGNAL PROCESSING-1
ELECTRONICS – DIGITAL SIGNAL PROCESSING-II
ELECTRONICS – MOS DEVICE
ELECTRONICS – INTER-DIGITAL TRANSDUCERS
NUCLEAR AND PARTICLE PHYSICS
NUCLEAR AND PARTICLE PHYSICS - INTRODUCTION TO NUCLEAR PHYSICSNUCLEAR AND PARTICLE PHYSICS - BASIC NUCLEAR PROPERTIES-I
NUCLEAR AND PARTICLE PHYSICS - BASIC NUCLEAR PROPERTIES-II & VI
NUCLEAR AND PARTICLE PHYSICS - BASIC NUCLEAR PROPERTIES-III
NUCLEAR AND PARTICLE PHYSICS - BASIC NUCLEAR PROPERTIES-IV
NUCLEAR AND PARTICLE PHYSICS - BASIC NUCLEAR PROPERTIES-V
NUCLEAR AND PARTICLE PHYSICS - BASIC NUCLEAR PROPERTIES- VI
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR FORCE AND ITS PROPERTIES-I
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR FORCE AND ITS PROPERTIES-1I
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR FORCE AND ITS PROPERTIES-1II
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR FORCE AND ITS PROPERTIES-IV
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR FORCE AND ITS PROPERTIES-V
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR FORCE AND ITS PROPERTIES-VI
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR MODELS -I
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR MODELS -II
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR MODELS -III
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR MODELS -IV
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR MODELS -V
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR MODELS -VI
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR MODELS -VII
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR MODELS -VIII
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR MODELS -IX
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR REACTIONS –I
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR REACTIONS -II
NUCLEAR AND PARTICLE PHYSICS - : NUCLEAR REACTIONS -III
NUCLEAR AND PARTICLE PHYSICS - : RADIATION DETECTOR–I
NUCLEAR AND PARTICLE PHYSICS - : RADIATION DETECTOR–II
NUCLEAR AND PARTICLE PHYSICS - : RADIATION DETECTOR–III
NUCLEAR AND PARTICLE PHYSICS - : RADIATION DETECTOR–IV
NUCLEAR AND PARTICLE PHYSICS - : RADIATION DETECTOR–V
NUCLEAR AND PARTICLE PHYSICS - : RADIATION DETECTOR–VI
NUCLEAR AND PARTICLE PHYSICS - : RADIATION DETECTOR–VII
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - INTRODUCTION
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - PAULI EXCLUSION PRINCIPLE
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - COUPLING SCHEMES-I
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - COUPLING SCHEMES-II
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - SPECTRA OF ALKALI METALS
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - SPECTRA OF HE AND ALKALINE METALS Atoms in External fields
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - ATOMS IN EXTERNAL FIELDS
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - THE VIBRATING DIATOMIC MOLECULE –I
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - THE VIBRATING DIATOMIC MOLECULE – ANHARMONIC OSCILLATOR
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - ELECTRONIC SPECTRA OF DIATOMIC MOLECULES-I
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - FRANCK-CONDON PRINCIPLE
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - ROTATIONAL AND VIBRATIONAL RAMAN SPECTRA
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - NON-LINEAR RAMAN EFFECT
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - ESR , NMR AND MÖSSBAUER SPECTROSCOPY
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - X – RAY SPECTROSCOPY
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - MOLECULAR ORBITAL THEORY-I
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - MOLECULAR ORBITAL THEORY-II
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - MOLECULAR ORBITAL THEORY-III
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - PHYSICS OF SEMICONDUCTOR AND SEMICONDUCTOR LASER
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - RUBY LASER AND Q- SWITCHING
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY – LASER SYSTEMS-1
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY – FABRY-PEROT OPTICAL RESONATOR FOR LASERS
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - PAULI EXCLUSION PRINCIPLE
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - COUPLING SCHEMES-I
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - COUPLING SCHEMES-II
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - SPECTRA OF ALKALI METALS
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - SPECTRA OF HE AND ALKALINE METALS Atoms in External fields
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - ATOMS IN EXTERNAL FIELDS
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - THE VIBRATING DIATOMIC MOLECULE –I
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - THE VIBRATING DIATOMIC MOLECULE – ANHARMONIC OSCILLATOR
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - ELECTRONIC SPECTRA OF DIATOMIC MOLECULES-I
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - FRANCK-CONDON PRINCIPLE
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - ROTATIONAL AND VIBRATIONAL RAMAN SPECTRA
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - NON-LINEAR RAMAN EFFECT
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - ESR , NMR AND MÖSSBAUER SPECTROSCOPY
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - X – RAY SPECTROSCOPY
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - MOLECULAR ORBITAL THEORY-I
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - MOLECULAR ORBITAL THEORY-II
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - MOLECULAR ORBITAL THEORY-III
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - PHYSICS OF SEMICONDUCTOR AND SEMICONDUCTOR LASER
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY - RUBY LASER AND Q- SWITCHING
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY – LASER SYSTEMS-1
ATOMIC, MOLECULAR AND LASER SPECTROSCOPY – FABRY-PEROT OPTICAL RESONATOR FOR LASERS
1. MECHANICS 2. SOUND 3. LIQUIDS 4. GASES 5. HEAT 6. LIGHT
7. ELECTROMAGNETISN 8. ATOMIC STRUCTURE 9. OUR UNIVERSE
PRESS BELOW LESSON NAMES(VIDEO LESSONS)
1. MECHANICS 2. SOUND 3. LIQUIDS 4. GASES 5. HEAT
6. LIGHT 7. ELECTROMAGNETISN 8. ATOMIC STRUCTURE
9. OUR UNIVERSE