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ENGINEERING PHYSICS
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UNITS PHYSICAL OPTICS,LASERS AND FIBRE OPTICS
CRYSTALOGRAPHY AND ULTRASONICS QUANTUM MECHANICS AND FREE ELECTRON THEORY SEMICONDUCTORS AND MAGNETIC MATERIALS SUPERCONDUCTIVITY AND PHYSICS OF NANOMATERIALS
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PHYSICAL OPTICS,LASERS AND FIBER OPTICS
UNIT-I PHYSICAL OPTICS,LASERS AND FIBER OPTICS
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PHYSICAL OPTICS INTERFERENCE DIFFRACTION THIN FILMS SINGLE SLIT
NEWTON’S RING DIFFRACTION SINGLE SLIT DOUBLE SLIT DIFFRACTION GRATING
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LASERS CHARACTERISTIC OF LASER EMISSION OF RADIATION
EINSTEIN’S COEFFICIENTS POPULATION INVERSION TYPES OF LASERS RUBY LASER HE-NE LASER APPLICATIONS
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FIBRE OPTICS PRINCIPLE AND CONSTRUCTION
NUMERICAL APERTURE AND ACCEPTANCE ANGLE TYPES OF OPTICAL FIBERS ATTENUATION AND LOSSES IN FIBERS OPTICAL FIBER COMMUNICATION SYSTEM APPLICATIONS
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CRYSTALLOGRAPHY AND ULTRASONICS
UNIT-II CRYSTALLOGRAPHY AND ULTRASONICS
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CRYSTALLOGRAPHY SPACE LATTICE, UNIT CELL AND LATTICE PARAMETERS
BRAVIAS LATTICE AND CRYSTAL SYSTEMS PACKING FRACTIONS OF SC, BCC AND FCC STRUCTURES OF SODIUM CHLORIDE AND DIAMOND MILLER INDICES-DIRECTIONS AND PLANES IN CRYSTALS INTERPLANER SPACING IN CUBIC SYSTEMS X-RAY DIFFRACTION 1) BRAGG’S LAW 2) LAUE METHOD 3) POWDER METHOD DEFECTS IN SOLIDS 1) POINT 2) LINE 3) SCREW AND EDGE DISLOCATION 4) BURGERS VECTOR
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ULTRASONICS PRODUCTION –PIEZOELECTRIC METHOD PROPERTIES DETECTION
APPLICATION IN NON-DESTRUCTIVE TESTING
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QUANTUM MECHANICS AND FREE ELECTRON THEORY
UNIT-III QUANTUM MECHANICS AND FREE ELECTRON THEORY
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QUANTUM MECHANICS MATTER WAVES de’ BROGLIE HYPOTHESIS
HEISENBERG’S UNCERTINATY PRINCIPLE SCHRODINGER’S WAVE EQUATION 1) TIME INDEPENDENT 2) TIME DEPENDANT POTENTIAL WELL
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FREE ELECTRON THEORY CLASICAL FREE ELECTRON THEORY
QUANTUM FREE ELECTRON THEORY ORIGEN OF BANDS IN SOLIDS
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SEMICONDUCTORS AND MAGNETIC MATERIALS
UNIT-IV SEMICONDUCTORS AND MAGNETIC MATERIALS
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SEMICONDUCTORS INTRINSIC AND EXTRINSIC SEMICONDUCTORS
DRIFT & DIFFUSION CURRENTS EINSTEIN’S EQUATION HALL EFFECT DIRECT & INDIRECT BAND GAP SEMICONDUCTORS SOME SEMICONDUCTOR DEVICES 1) P-N JUNCTION DIODE 2) LED 3) LASER DIODE 4) PHOTO DIODE
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MAGNETIC MATERIALS BASIC DEFINITIONS ORIGIN OF MAGNETIC MOMENTS
BOHR MAGNETON CLASSIFICATION OF MAGNETIC MATERIALS HYSTERESIS APPLICATIONS
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SUPERCONDUCTIVITY AND PHYSICS OF NANOMATERIALS
UNIT-V SUPERCONDUCTIVITY AND PHYSICS OF NANOMATERIALS
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SUPERCONDUCTIVITY MEISSNER EFFECT PROPERTIES TYPES OF SUPERCONDUCTORS
FLUX QUANTIZATION LONDON PENETRATION DEPTH JOSEPHSON EFFECT BCS THEORY HIGH TC SUPERCONDUCTORS APPLICATIONS
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PHYSICS OF NANOMATERIALS
PRINCILPE PHYSICAL PROPERTIES SYNTHESIS OF NANOMATERIALS CARBON NANOTUBES GRAPHENE APPLICATIONS
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THANK Q P G LOGAN
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