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Engineering Physics for SPPU 19 Course (FE - I - Common - 107002)

SKU: 9789389180930
H. J. Sawant, Dr. S. K. Babar, V. P. Waghe, S. N. Shukla, S. V. Arlikar, S. S. Joshi ISBN 9789389180930
10% Discount
₹ 215.00
₹ 194.00
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Unit I Wave Optics
Interference
Introduction to electromagnetic waves and electromagnetic spectrum - Interference in thin film of uniform thickness (with derivation) - Interference in thin film wedge shape (qualitative) - Applications of interference : testing optical flatness, anti-reflection coating Diffraction
Diffraction of light - Diffraction at a single slit, conditions for principal maxima and minima, diffraction pattern - Diffraction grating, conditions for principal maxima and minima starting from resultant amplitude equations, diffraction pattern - Rayleigh’s criterion for resolution, resolving power of telescope and grating Polarization - Polarization of light, Malus law - Double refraction, Huygen’s theory of double refraction Applications of polarization : LCD. (Chapters-1, 2, 3)
Unit II Laser and Optic Fibre
Laser - Basics of laser and its mechanism, characteristics of laser - Semiconductor laser : Single Hetro-junction laser - Gas laser : laser - Applications of lasers : Holography, IT, industrial, medical. Optic Fiber - Introduction, parameters: Acceptance Angle, Acceptance Cone, Numerical Aperture - Types of optical fiber- step index and graded index - Attenuation and reasons for losses in optic fibers (qualitative) - Communication system : basic building blocks - Advantages of optical fiber communication over conventional methods. (Chapters-4, 5)
Unit III Quantum Mechanics
De-Broglie hypothesis - Concept of phase velocity and group velocity (qualitative) - Heisenberg Uncertainty Principle - Wave-function and its physical significance - Schrodinger’s equations : time independent and time dependent - Application of Schrodinger’s time independent wave equation - Particle enclosed in infinitely deep potential well (Particle in RigidBox) - Particle in Finite potential well (Particle in Non Rigid box) (qualitative) - Tunneling effect, Tunneling effect examples (principle only): Alpha Decay, Scanning Tunneling Microscope, Tunnel diode - Introduction to quantum computing. (Chapter-6)
Unit IV Semiconductor Physics
Free electron theory (Qualitative) - Opening of band gap due to internal electron diffraction due to lattice Band theory of solids - Effective mass of electron density of states - Fermi Dirac distribution function - Conductivity of conductors and semiconductors - Position of Fermi level in intrinsic and extrinsic semiconductors (with derivations based on carrier concentration) - Working of PN junction on the basis of band diagram - Expression for barrier potential (derivation) - Ideal diode equation - Applications of PN junction diode: Solar cell (basic principle with band diagram) IV Characteristics and Parameters, ways of improving efficiency of solar cell - Hall effect : Derivation for hall voltage, hall coefficient, applications of hall effect. (Chapter-7)

Unit V Magnetism and Superconductivity
Magnetism
Origin of magnetism - Classification of magnetism on the basis of permeability (qualitative) - Applications of magnetic devices : transformer cores, magnetic storage, magneto-optical recording.
Superconductivity
Introduction to superconductivity; Properties of superconductors : zero electrical - resistance, critical magnetic field, persistent current, Meissner effect - Type I and Type II superconductors - Low and high temperature superconductors (introduction and qualitative) - AC/DC Josephson effect; SQUID : basic construction and principle of working; Applications of SQUID - Applications of superconductors. (Chapters-8, 9)
Unit VI Non Destructive Testing and Nanotechnology
Non Destructive Testing
Classification of non-destructive testing methods - Principles of physics in non-destructive testing - Advantages of non-destructive testing methods - Acoustic emission testing - Ultrasonic (thickness measurement, flaw detection) - Radiography testing.
Nanotechnology
Introduction to nanotechnology - Quantum confinement and surface to volume ratio - Properties of nanoparticles : optical, electrical, mechanical Applications of nanoparticles : Medical (targeted drug delivery), electronics, space and defense, automobile. (Chapters-10, 11)

 

Unit I Wave Optics
Interference
Introduction to electromagnetic waves and electromagnetic spectrum - Interference in thin film of uniform thickness (with derivation) - Interference in thin film wedge shape (qualitative) - Applications of interference : testing optical flatness, anti-reflection coating Diffraction
Diffraction of light - Diffraction at a single slit, conditions for principal maxima and minima, diffraction pattern - Diffraction grating, conditions for principal maxima and minima starting from resultant amplitude equations, diffraction pattern - Rayleigh’s criterion for resolution, resolving power of telescope and grating Polarization - Polarization of light, Malus law - Double refraction, Huygen’s theory of double refraction Applications of polarization : LCD. (Chapters-1, 2, 3)
Unit II Laser and Optic Fibre
Laser - Basics of laser and its mechanism, characteristics of laser - Semiconductor laser : Single Hetro-junction laser - Gas laser : laser - Applications of lasers : Holography, IT, industrial, medical. Optic Fiber - Introduction, parameters: Acceptance Angle, Acceptance Cone, Numerical Aperture - Types of optical fiber- step index and graded index - Attenuation and reasons for losses in optic fibers (qualitative) - Communication system : basic building blocks - Advantages of optical fiber communication over conventional methods. (Chapters-4, 5)
Unit III Quantum Mechanics
De-Broglie hypothesis - Concept of phase velocity and group velocity (qualitative) - Heisenberg Uncertainty Principle - Wave-function and its physical significance - Schrodinger’s equations : time independent and time dependent - Application of Schrodinger’s time independent wave equation - Particle enclosed in infinitely deep potential well (Particle in RigidBox) - Particle in Finite potential well (Particle in Non Rigid box) (qualitative) - Tunneling effect, Tunneling effect examples (principle only): Alpha Decay, Scanning Tunneling Microscope, Tunnel diode - Introduction to quantum computing. (Chapter-6)
Unit IV Semiconductor Physics
Free electron theory (Qualitative) - Opening of band gap due to internal electron diffraction due to lattice Band theory of solids - Effective mass of electron density of states - Fermi Dirac distribution function - Conductivity of conductors and semiconductors - Position of Fermi level in intrinsic and extrinsic semiconductors (with derivations based on carrier concentration) - Working of PN junction on the basis of band diagram - Expression for barrier potential (derivation) - Ideal diode equation - Applications of PN junction diode: Solar cell (basic principle with band diagram) IV Characteristics and Parameters, ways of improving efficiency of solar cell - Hall effect : Derivation for hall voltage, hall coefficient, applications of hall effect. (Chapter-7)

Unit V Magnetism and Superconductivity
Magnetism
Origin of magnetism - Classification of magnetism on the basis of permeability (qualitative) - Applications of magnetic devices : transformer cores, magnetic storage, magneto-optical recording.
Superconductivity
Introduction to superconductivity; Properties of superconductors : zero electrical - resistance, critical magnetic field, persistent current, Meissner effect - Type I and Type II superconductors - Low and high temperature superconductors (introduction and qualitative) - AC/DC Josephson effect; SQUID : basic construction and principle of working; Applications of SQUID - Applications of superconductors. (Chapters-8, 9)
Unit VI Non Destructive Testing and Nanotechnology
Non Destructive Testing
Classification of non-destructive testing methods - Principles of physics in non-destructive testing - Advantages of non-destructive testing methods - Acoustic emission testing - Ultrasonic (thickness measurement, flaw detection) - Radiography testing.
Nanotechnology
Introduction to nanotechnology - Quantum confinement and surface to volume ratio - Properties of nanoparticles : optical, electrical, mechanical Applications of nanoparticles : Medical (targeted drug delivery), electronics, space and defense, automobile. (Chapters-10, 11)

 

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