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ENGINEERING PHYSICS.

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Presentation on theme: "ENGINEERING PHYSICS."— Presentation transcript:

1 ENGINEERING PHYSICS

2 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

3 PHYSICAL OPTICS,LASERS AND FIBER OPTICS
UNIT-I PHYSICAL OPTICS,LASERS AND FIBER OPTICS

4 PHYSICAL OPTICS INTERFERENCE DIFFRACTION THIN FILMS SINGLE SLIT
NEWTON’S RING DIFFRACTION SINGLE SLIT DOUBLE SLIT DIFFRACTION GRATING

5 LASERS CHARACTERISTIC OF LASER EMISSION OF RADIATION
EINSTEIN’S COEFFICIENTS POPULATION INVERSION TYPES OF LASERS RUBY LASER HE-NE LASER APPLICATIONS

6 FIBRE OPTICS PRINCIPLE AND CONSTRUCTION
NUMERICAL APERTURE AND ACCEPTANCE ANGLE TYPES OF OPTICAL FIBERS ATTENUATION AND LOSSES IN FIBERS OPTICAL FIBER COMMUNICATION SYSTEM APPLICATIONS

7 CRYSTALLOGRAPHY AND ULTRASONICS
UNIT-II CRYSTALLOGRAPHY AND ULTRASONICS

8 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

9 ULTRASONICS PRODUCTION –PIEZOELECTRIC METHOD PROPERTIES DETECTION
APPLICATION IN NON-DESTRUCTIVE TESTING

10 QUANTUM MECHANICS AND FREE ELECTRON THEORY
UNIT-III QUANTUM MECHANICS AND FREE ELECTRON THEORY

11 QUANTUM MECHANICS MATTER WAVES de’ BROGLIE HYPOTHESIS
HEISENBERG’S UNCERTINATY PRINCIPLE SCHRODINGER’S WAVE EQUATION 1) TIME INDEPENDENT 2) TIME DEPENDANT POTENTIAL WELL

12 FREE ELECTRON THEORY CLASICAL FREE ELECTRON THEORY
QUANTUM FREE ELECTRON THEORY ORIGEN OF BANDS IN SOLIDS

13 SEMICONDUCTORS AND MAGNETIC MATERIALS
UNIT-IV SEMICONDUCTORS AND MAGNETIC MATERIALS

14 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

15 MAGNETIC MATERIALS BASIC DEFINITIONS ORIGIN OF MAGNETIC MOMENTS
BOHR MAGNETON CLASSIFICATION OF MAGNETIC MATERIALS HYSTERESIS APPLICATIONS

16 SUPERCONDUCTIVITY AND PHYSICS OF NANOMATERIALS
UNIT-V SUPERCONDUCTIVITY AND PHYSICS OF NANOMATERIALS

17 SUPERCONDUCTIVITY MEISSNER EFFECT PROPERTIES TYPES OF SUPERCONDUCTORS
FLUX QUANTIZATION LONDON PENETRATION DEPTH JOSEPHSON EFFECT BCS THEORY HIGH TC SUPERCONDUCTORS APPLICATIONS

18 PHYSICS OF NANOMATERIALS
PRINCILPE PHYSICAL PROPERTIES SYNTHESIS OF NANOMATERIALS CARBON NANOTUBES GRAPHENE APPLICATIONS

19 THANK Q P G LOGAN


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