2014, ISBN: 9788184873429

Paperback, Hardcover

Technical Publications. First edition. Softcover. New. Dielectrics Definitions Definitions Introduction Superconductivity Non Linear Optics LASER 1st edition, by H.J. Sawant, Dhruve… More...

Technical Publications. First edition. Softcover. New. Dielectrics Definitions Definitions Introduction Superconductivity Non Linear Optics LASER 1st edition, by H.J. Sawant, Dhruvesh Mathur Dielectrics Definitions : Electric field intensity, Electric flux, Dielectric parameters Types of dielectric materials : Solid, Liquid and Gaseous Classification of electrical insulating materials Claussius-Mosotti equation Uses of dielectric materials, Capacitors : Single and multilayer, Polymeric film, Electrolytic, Power and distribution transformers, Other applications Magnetic Materials Definitions : Magnetic moment, Magnetic dipole, Magnetic field strength, Magnetic flux density, Intensity of magnetization, Magnetic dipole moment, Magnetic field intensity, Magnetic permeability, Magnetic susceptibility, Bohr magnetron Classification of magnetic materials on the basis of magnetic moment Soft and hard magnetic materials Anti-ferromagnetic materials Ferrites Magnetic recording and readout storage of magnetic data Acoustic and Ultrasonic Introduction, Classification and Characteristics of sound Sabine`s formula for reverberation (Without derivations) Introduction of abosorption co-efficient Sound absorbing materials Factors affecting the acoustics of building and their remedies Sound insulation Noise pollutions Noise control in machines Properties of ultrasound Generation of ultrasound by (1) Piezoelectric method and (2) Magnetostriction method Methods for ultrasound velocity measurement Applications of ultrasound : Industry, Medicine NDT through ultrasonic Superconductivity Superconductivity General properties of superconductors Types of superconductors High temperature superconductors Applications : Magnets, Josephson effect, SQUID, Maglev, Other Non Linear Optics LASER Introduction Characteristics of laser radiation Spontaneous and stimulated emission Working of LASER with basic idea about population inversion, Pumping mechanism, Optical resonators Nd : YAG LASER Applications of LASER : Medical, Industrial, Communication and other Fiber Optics Introduction of optical fiber Advantages of optical fiber Total internal reflection Numerical aperture and acceptance angle Modes of propagation Types of optical fiber Applications of optical fiber Nanophysics Printed Pages: 160., Technical Publications, 6, Technical Publications. First edition. Softcover. New. Dielectrics Definitions Definitions Introduction Superconductivity Non Linear Optics LASER 1st edition, by H.J. Sawant, Dhruvesh Mathur Dielectrics Definitions : Electric field intensity, Electric flux, Dielectric parameters Types of dielectric materials : Solid, Liquid and Gaseous Classification of electrical insulating materials Claussius-Mosotti equation Uses of dielectric materials, Capacitors : Single and multilayer, Polymeric film, Electrolytic, Power and distribution transformers, Other applications Magnetic Materials Definitions : Magnetic moment, Magnetic dipole, Magnetic field strength, Magnetic flux density, Intensity of magnetization, Magnetic dipole moment, Magnetic field intensity, Magnetic permeability, Magnetic susceptibility, Bohr magnetron Classification of magnetic materials on the basis of magnetic moment Soft and hard magnetic materials Anti-ferromagnetic materials Ferrites Magnetic recording and readout storage of magnetic data Acoustic and Ultrasonic Introduction, Classification and Characteristics of sound Sabine`s formula for reverberation (Without derivations) Introduction of abosorption co-efficient Sound absorbing materials Factors affecting the acoustics of building and their remedies Sound insulation Noise pollutions Noise control in machines Properties of ultrasound Generation of ultrasound by (1) Piezoelectric method and (2) Magnetostriction method Methods for ultrasound velocity measurement Applications of ultrasound : Industry, Medicine NDT through ultrasonic Superconductivity Superconductivity General properties of superconductors Types of superconductors High temperature superconductors Applications : Magnets, Josephson effect, SQUID, Maglev, Other Non Linear Optics LASER Introduction Characteristics of laser radiation Spontaneous and stimulated emission Working of LASER with basic idea about population inversion, Pumping mechanism, Optical resonators Nd : YAG LASER Applications of LASER : Medical, Industrial, Communication and other Fiber Optics Introduction of optical fiber Advantages of optical fiber Total internal reflection Numerical aperture and acceptance angle Modes of propagation Types of optical fiber Applications of optical fiber Nanophysics Printed Pages: 160. NA, Technical Publications, 6, Technical Publications. First edition. Softcover. New. Dielectrics Definitions Definitions Introduction Superconductivity Non Linear Optics LASER 1st edition, by H.J. Sawant, Dhruvesh Mathur Dielectrics Definitions : Electric field intensity, Electric flux, Dielectric parameters Types of dielectric materials : Solid, Liquid and Gaseous Classification of electrical insulating materials Claussius-Mosotti equation Uses of dielectric materials, Capacitors : Single and multilayer, Polymeric film, Electrolytic, Power and distribution transformers, Other applications Magnetic Materials Definitions : Magnetic moment, Magnetic dipole, Magnetic field strength, Magnetic flux density, Intensity of magnetization, Magnetic dipole moment, Magnetic field intensity, Magnetic permeability, Magnetic susceptibility, Bohr magnetron Classification of magnetic materials on the basis of magnetic moment Soft and hard magnetic materials Anti-ferromagnetic materials Ferrites Magnetic recording and readout storage of magnetic data Acoustic and Ultrasonic Introduction, Classification and Characteristics of sound Sabine`s formula for reverberation (Without derivations) Introduction of abosorption co-efficient Sound absorbing materials Factors affecting the acoustics of building and their remedies Sound insulation Noise pollutions Noise control in machines Properties of ultrasound Generation of ultrasound by (1) Piezoelectric method and (2) Magnetostriction method Methods for ultrasound velocity measurement Applications of ultrasound : Industry, Medicine NDT through ultrasonic Superconductivity Superconductivity General properties of superconductors Types of superconductors High temperature superconductors Applications : Magnets, Josephson effect, SQUID, Maglev, Other Non Linear Optics LASER Introduction Characteristics of laser radiation Spontaneous and stimulated emission Working of LASER with basic idea about population inversion, Pumping mechanism, Optical resonators Nd : YAG LASER Applications of LASER : Medical, Industrial, Communication and other Fiber Optics Introduction of optical fiber Advantages of optical fiber Total internal reflection Numerical aperture and acceptance angle Modes of propagation Types of optical fiber Applications of optical fiber Nanophysics Printed Pages: 160., Technical Publications, 6, Technical Publications. First edition. Softcover. New. Dielectrics Definitions Definitions Introduction Superconductivity Non Linear Optics LASER 1st edition, by H.J. Sawant, Dhruvesh Mathur Dielectrics Definitions : Electric field intensity, Electric flux, Dielectric parameters Types of dielectric materials : Solid, Liquid and Gaseous Classification of electrical insulating materials Claussius-Mosotti equation Uses of dielectric materials, Capacitors : Single and multilayer, Polymeric film, Electrolytic, Power and distribution transformers, Other applications Magnetic Materials Definitions : Magnetic moment, Magnetic dipole, Magnetic field strength, Magnetic flux density, Intensity of magnetization, Magnetic dipole moment, Magnetic field intensity, Magnetic permeability, Magnetic susceptibility, Bohr magnetron Classification of magnetic materials on the basis of magnetic moment Soft and hard magnetic materials Anti-ferromagnetic materials Ferrites Magnetic recording and readout storage of magnetic data Acoustic and Ultrasonic Introduction, Classification and Characteristics of sound Sabine`s formula for reverberation (Without derivations) Introduction of abosorption co-efficient Sound absorbing materials Factors affecting the acoustics of building and their remedies Sound insulation Noise pollutions Noise control in machines Properties of ultrasound Generation of ultrasound by (1) Piezoelectric method and (2) Magnetostriction method Methods for ultrasound velocity measurement Applications of ultrasound : Industry, Medicine NDT through ultrasonic Superconductivity Superconductivity General properties of superconductors Types of superconductors High temperature superconductors Applications : Magnets, Josephson effect, SQUID, Maglev, Other Non Linear Optics LASER Introduction Characteristics of laser radiation Spontaneous and stimulated emission Working of LASER with basic idea about population inversion, Pumping mechanism, Optical resonators Nd : YAG LASER Applications of LASER : Medical, Industrial, Communication and other Fiber Optics Introduction of optical fiber Advantages of optical fiber Total internal reflection Numerical aperture and acceptance angle Modes of propagation Types of optical fiber Applications of optical fiber Nanophysics Printed Pages: 160., Technical Publications, 6, Technical Publications. First edition. Softcover. New. Dielectrics Definitions Definitions Introduction Superconductivity Non Linear Optics LASER 1st edition, by H.J. Sawant, Dhruvesh Mathur Dielectrics Definitions : Electric field intensity, Electric flux, Dielectric parameters Types of dielectric materials : Solid, Liquid and Gaseous Classification of electrical insulating materials Claussius-Mosotti equation Uses of dielectric materials, Capacitors : Single and multilayer, Polymeric film, Electrolytic, Power and distribution transformers, Other applications Magnetic Materials Definitions : Magnetic moment, Magnetic dipole, Magnetic field strength, Magnetic flux density, Intensity of magnetization, Magnetic dipole moment, Magnetic field intensity, Magnetic permeability, Magnetic susceptibility, Bohr magnetron Classification of magnetic materials on the basis of magnetic moment Soft and hard magnetic materials Anti-ferromagnetic materials Ferrites Magnetic recording and readout storage of magnetic data Acoustic and Ultrasonic Introduction, Classification and Characteristics of sound Sabine`s formula for reverberation (Without derivations) Introduction of abosorption co-efficient Sound absorbing materials Factors affecting the acoustics of building and their remedies Sound insulation Noise pollutions Noise control in machines Properties of ultrasound Generation of ultrasound by (1) Piezoelectric method and (2) Magnetostriction method Methods for ultrasound velocity measurement Applications of ultrasound : Industry, Medicine NDT through ultrasonic Superconductivity Superconductivity General properties of superconductors Types of superconductors High temperature superconductors Applications : Magnets, Josephson effect, SQUID, Maglev, Other Non Linear Optics LASER Introduction Characteristics of laser radiation Spontaneous and stimulated emission Working of LASER with basic idea about population inversion, Pumping mechanism, Optical resonators Nd : YAG LASER Applications of LASER : Medical, Industrial, Communication and other Fiber Optics Introduction of optical fiber Advantages of optical fiber Total internal reflection Numerical aperture and acceptance angle Modes of propagation Types of optical fiber Applications of optical fiber Nanophysics Printed Pages: 160., Technical Publications, 6, Technical Publications. First edition. Softcover. New. Dielectrics Definitions Definitions Introduction Superconductivity Non Linear Optics LASER 1st edition, by H.J. Sawant, Dhruvesh Mathur Dielectrics Definitions : Electric field intensity, Electric flux, Dielectric parameters Types of dielectric materials : Solid, Liquid and Gaseous Classification of electrical insulating materials Claussius-Mosotti equation Uses of dielectric materials, Capacitors : Single and multilayer, Polymeric film, Electrolytic, Power and distribution transformers, Other applications Magnetic Materials Definitions : Magnetic moment, Magnetic dipole, Magnetic field strength, Magnetic flux density, Intensity of magnetization, Magnetic dipole moment, Magnetic field intensity, Magnetic permeability, Magnetic susceptibility, Bohr magnetron Classification of magnetic materials on the basis of magnetic moment Soft and hard magnetic materials Anti-ferromagnetic materials Ferrites Magnetic recording and readout storage of magnetic data Acoustic and Ultrasonic Introduction, Classification and Characteristics of sound Sabine`s formula for reverberation (Without derivations) Introduction of abosorption co-efficient Sound absorbing materials Factors affecting the acoustics of building and their remedies Sound insulation Noise pollutions Noise control in machines Properties of ultrasound Generation of ultrasound by (1) Piezoelectric method and (2) Magnetostriction method Methods for ultrasound velocity measurement Applications of ultrasound : Industry, Medicine NDT through ultrasonic Superconductivity Superconductivity General properties of superconductors Types of superconductors High temperature superconductors Applications : Magnets, Josephson effect, SQUID, Maglev, Other Non Linear Optics LASER Introduction Characteristics of laser radiation Spontaneous and stimulated emission Working of LASER with basic idea about population inversion, Pumping mechanism, Optical resonators Nd : YAG LASER Applications of LASER : Medical, Industrial, Communication and other Fiber Optics Introduction of optical fiber Advantages of optical fiber Total internal reflection Numerical aperture and acceptance angle Modes of propagation Types of optical fiber Applications of optical fiber Nanophysics Printed Pages: 160., Technical Publications, 6, Technical Publications. First edition. Softcover. New. Dielectrics Definitions Definitions Introduction Superconductivity Non Linear Optics LASER 1st edition, by H.J. Sawant, Dhruvesh Mathur Dielectrics Definitions : Electric field intensity, Electric flux, Dielectric parameters Types of dielectric materials : Solid, Liquid and Gaseous Classification of electrical insulating materials Claussius-Mosotti equation Uses of dielectric materials, Capacitors : Single and multilayer, Polymeric film, Electrolytic, Power and distribution transformers, Other applications Magnetic Materials Definitions : Magnetic moment, Magnetic dipole, Magnetic field strength, Magnetic flux density, Intensity of magnetization, Magnetic dipole moment, Magnetic field intensity, Magnetic permeability, Magnetic susceptibility, Bohr magnetron Classification of magnetic materials on the basis of magnetic moment Soft and hard magnetic materials Anti-ferromagnetic materials Ferrites Magnetic recording and readout storage of magnetic data Acoustic and Ultrasonic Introduction, Classification and Characteristics of sound Sabine`s formula for reverberation (Without derivations) Introduction of abosorption co-efficient Sound absorbing materials Factors affecting the acoustics of building and their remedies Sound insulation Noise pollutions Noise control in machines Properties of ultrasound Generation of ultrasound by (1) Piezoelectric method and (2) Magnetostriction method Methods for ultrasound velocity measurement Applications of ultrasound : Industry, Medicine NDT through ultrasonic Superconductivity Superconductivity General properties of superconductors Types of superconductors High temperature superconductors Applications : Magnets, Josephson effect, SQUID, Maglev, Other Non Linear Optics LASER Introduction Characteristics of laser radiation Spontaneous and stimulated emission Working of LASER with basic idea about population inversion, Pumping mechanism, Optical resonators Nd : YAG LASER Applications of LASER : Medical, Industrial, Communication and other Fiber Optics Introduction of optical fiber Advantages of optical fiber Total internal reflection Numerical aperture and acceptance angle Modes of propagation Types of optical fiber Applications of optical fiber Nanophysics Printed Pages: 160., Technical Publications, 6, Technical Publications. First edition. Softcover. New. Dielectrics Definitions Definitions Introduction Superconductivity Non Linear Optics LASER 1st edition, by H.J. Sawant, Dhruvesh Mathur Dielectrics Definitions : Electric field intensity, Electric flux, Dielectric parameters Types of dielectric materials : Solid, Liquid and Gaseous Classification of electrical insulating materials Claussius-Mosotti equation Uses of dielectric materials, Capacitors : Single and multilayer, Polymeric film, Electrolytic, Power and distribution transformers, Other applications Magnetic Materials Definitions : Magnetic moment, Magnetic dipole, Magnetic field strength, Magnetic flux density, Intensity of magnetization, Magnetic dipole moment, Magnetic field intensity, Magnetic permeability, Magnetic susceptibility, Bohr magnetron Classification of magnetic materials on the basis of magnetic moment Soft and hard magnetic materials Anti-ferromagnetic materials Ferrites Magnetic recording and readout storage of magnetic data Acoustic and Ultrasonic Introduction, Classification and Characteristics of sound Sabine`s formula for reverberation (Without derivations) Introduction of abosorption co-efficient Sound absorbing materials Factors affecting the acoustics of building and their remedies Sound insulation Noise pollutions Noise control in machines Properties of ultrasound Generation of ultrasound by (1) Piezoelectric method and (2) Magnetostriction method Methods for ultrasound velocity measurement Applications of ultrasound : Industry, Medicine NDT through ultrasonic Superconductivity Superconductivity General properties of superconductors Types of superconductors High temperature superconductors Applications : Magnets, Josephson effect, SQUID, Maglev, Other Non Linear Optics LASER Introduction Characteristics of laser radiation Spontaneous and stimulated emission Working of LASER with basic idea about population inversion, Pumping mechanism, Optical resonators Nd : YAG LASER Applications of LASER : Medical, Industrial, Communication and other Fiber Optics Introduction of optical fiber Advantages of optical fiber Total internal reflection Numerical aperture and acceptance angle Modes of propagation Types of optical fiber Applications of optical fiber Nanophysics Printed Pages: 160. NA, Technical Publications, 6, Technical Publications. First edition. Softcover. New. A detail description on Crystal Physics: Lattice - Unit cell - Bravais lattice - Lattice planes - Miller indices - d spacing in cubic lattice - Calculation of number of atoms per unit cell - Atomic radius - Coordination number - Packing factor for SC, BCC, FCC and HCP structures - Diamond and graphite structures (Qualitative treatment)- Crystal growth techniques - Solution, Melt (Bridgman and Czochralski) and vapour growth techniques (Qualitative). Properties of Matter and Thermal Physics: Elasticity - Hookes law - Relationship between three modulii of elasticity (Qualitative) - Stress - Strain diagram - Poissons ratio - Factors affecting elasticity - Bending moment - Depression of a cantilever -Youngs modulus by uniform bending - I-shaped girders. Modes of heat transfer - Thermal conductivity- Newtons law of cooling - Linear heat flow - Lees disc method - Radial heat flow - Rubber tube method - Conduction through compound media (Series and Parallel). Quantum Physics : Black body radiation - Plancks theory (derivation) - Deduction of Wiens displacement law and Rayleigh - Jeans Law from Plancks theory - Compton effect. Theory and experimental verification - Properties of Matter waves - G.P Thomson experiment - Schrödingers wave equation - Time independent and time dependent equations - Physical significance of wave function - Particle in a one dimensional box - Electron microscope - Scanning electron microscope - Transmission electron microscope. Acoustics and Ultrasonics: Classification of Sound- Decibel- Weber-Fechner law - Sabines formula - Derivation using growth and decay method - Absorption coefficient and its determination - Factors affecting acoustics of buildings and their remedies. Production of ultrasonics by magnetostriction and piezoelectric methods - Acoustic grating - Non destructive testing - Pulse echo system through transmission and reflection modes - A, B and C - Scan displays, Medical applications - Sonogram. Photonics and Fibre Optics : Spontaneous and stimulated emission - Population inversion - Einsteins A and B coefficients - Derivation. Types of lasers - Nd : YAG, CO2, Semiconductor lasers (homojunction and heterojunction) - Industrial and medical applications. Principle and propagation of light in optical fibres - Numerical aperture and acceptance angle - Types of optical fibres (Material, Refractive index, Mode) - Attenuation, Dispersion, Bending - Fibre optical communication system (Block diagram) - Active and passive fibre sensors - Endoscope. Printed Pages: 236. NA, Technical Publications, 6, Technical Publications. First edition. Softcover. New. A detail description on Crystal Physics: Lattice - Unit cell - Bravais lattice - Lattice planes - Miller indices - d spacing in cubic lattice - Calculation of number of atoms per unit cell - Atomic radius - Coordination number - Packing factor for SC, BCC, FCC and HCP structures - Diamond and graphite structures (Qualitative treatment)- Crystal growth techniques - Solution, Melt (Bridgman and Czochralski) and vapour growth techniques (Qualitative). Properties of Matter and Thermal Physics: Elasticity - Hooke’s law - Relationship between three modulii of elasticity (Qualitative) - Stress - Strain diagram - Poisson’s ratio - Factors affecting elasticity - Bending moment - Depression of a cantilever -Young’s modulus by uniform bending - I-shaped girders. Modes of heat transfer - Thermal conductivity- Newton’s law of cooling - Linear heat flow - Lee’s disc method - Radial heat flow - Rubber tube method - Conduction through compound media (Series and Parallel). Quantum Physics : Black body radiation - Planck’s theory (derivation) - Deduction of Wien’s displacement law and Rayleigh - Jeans’ Law from Planck’s theory - Compton effect. Theory and experimental verification - Properties of Matter waves - G.P Thomson experiment - Schrödinger’s wave equation - Time independent and time dependent equations - Physical significance of wave function - Particle in a one dimensional box - Electron microscope - Scanning electron microscope - Transmission electron microscope. Acoustics and Ultrasonics: Classification of Sound- Decibel- Weber-Fechner law - Sabine’s formula - Derivation using growth and decay method - Absorption coefficient and its determination - Factors affecting acoustics of buildings and their remedies. Production of ultrasonics by magnetostriction and piezoelectric methods - Acoustic grating - Non destructive testing - Pulse echo system through transmission and reflection modes - A, B and C - Scan displays, Medical applications - Sonogram. Photonics and Fibre Optics : Spontaneous and stimulated emission - Population inversion - Einstein’s A and B coefficients - Derivation. Types of lasers - Nd : YAG, CO2, Semiconductor lasers (homojunction and heterojunction) - Industrial and medical applications. Principle and propagation of light in optical fibres - Numerical aperture and acceptance angle - Types of optical fibres (Material, Refractive index, Mode) - Attenuation, Dispersion, Bending - Fibre optical communication system (Block diagram) - Active and passive fibre sensors - Endoscope. Printed Pages: 236., Technical Publications, 6, Technical Publications. First edition. Softcover. New. A detail description on Crystal Physics: Lattice - Unit cell - Bravais lattice - Lattice planes - Miller indices - d spacing in cubic lattice - Calculation of number of atoms per unit cell - Atomic radius - Coordination number - Packing factor for SC, BCC, FCC and HCP structures - Diamond and graphite structures (Qualitative treatment)- Crystal growth techniques - Solution, Melt (Bridgman and Czochralski) and vapour growth techniques (Qualitative). Properties of Matter and Thermal Physics: Elasticity - Hookes law - Relationship between three modulii of elasticity (Qualitative) - Stress - Strain diagram - Poissons ratio - Factors affecting elasticity - Bending moment - Depression of a cantilever -Youngs modulus by uniform bending - I-shaped girders. Modes of heat transfer - Thermal conductivity- Newtons law of cooling - Linear heat flow - Lees disc method - Radial heat flow - Rubber tube method - Conduction through compound media (Series and Parallel). Quantum Physics : Black body radiation - Plancks theory (derivation) - Deduction of Wiens displacement law and Rayleigh - Jeans Law from Plancks theory - Compton effect. Theory and experimental verification - Properties of Matter waves - G.P Thomson experiment - Schrdingers wave equation - Time independent and time dependent equations - Physical significance of wave function - Particle in a one dimensional box - Electron microscope - Scanning electron microscope - Transmission electron microscope. Acoustics and Ultrasonics: Classification of Sound- Decibel- Weber-Fechner law - Sabines formula - Derivation using growth and decay method - Absorption coefficient and its determination - Factors affecting acoustics of buildings and their remedies. Production of ultrasonics by magnetostriction and piezoelectric methods - Acoustic grating - Non destructive testing - Pulse echo system through transmission and reflection modes - A, B and C - Scan displays, Medical applications - Sonogram. Photonics and Fibre Optics : Spontaneous and stimulated emission - Population inversion - Einsteins A and B coefficients - Derivation. Types of lasers - Nd : YAG, CO2, Semiconductor lasers (homojunction and heterojunction) - Industrial and medical applications. Principle and propagation of light in optical fibres - Numerical aperture and acceptance angle - Types of optical fibres (Material, Refractive index, Mode) - Attenuation, Dispersion, Bending - Fibre optical communication system (Block diagram) - Active and passive fibre sensors - Endoscope. Printed Pages: 236. NA, Technical Publications, 6, Technical Publications. First edition. Softcover. New. A detail description on Crystal Physics: Lattice - Unit cell - Bravais lattice - Lattice planes - Miller indices - d spacing in cubic lattice - Calculation of number of atoms per unit cell - Atomic radius - Coordination number - Packing factor for SC, BCC, FCC and HCP structures - Diamond and graphite structures (Qualitative treatment)- Crystal growth techniques - Solution, Melt (Bridgman and Czochralski) and vapour growth techniques (Qualitative). Properties of Matter and Thermal Physics: Elasticity - Hooke’s law - Relationship between three modulii of elasticity (Qualitative) - Stress - Strain diagram - Poisson’s ratio - Factors affecting elasticity - Bending moment - Depression of a cantilever -Young’s modulus by uniform bending - I-shaped girders. Modes of heat transfer - Thermal conductivity- Newton’s law of cooling - Linear heat flow - Lee’s disc method - Radial heat flow - Rubber tube method - Conduction through compound media (Series and Parallel). Quantum Physics : Black body radiation - Planck’s theory (derivation) - Deduction of Wien’s displacement law and Rayleigh - Jeans’ Law from Planck’s theory - Compton effect. Theory and experimental verification - Properties of Matter waves - G.P Thomson experiment - Schrödinger’s wave equation - Time independent and time dependent equations - Physical significance of wave function - Particle in a one dimensional box - Electron microscope - Scanning electron microscope - Transmission electron microscope. Acoustics and Ultrasonics: Classification of Sound- Decibel- Weber-Fechner law - Sabine’s formula - Derivation using growth and decay method - Absorption coefficient and its determination - Factors affecting acoustics of buildings and their remedies. Production of ultrasonics by magnetostriction and piezoelectric methods - Acoustic grating - Non destructive testing - Pulse echo system through transmission and reflection modes - A, B and C - Scan displays, Medical applications - Sonogram. Photonics and Fibre Optics : Spontaneous and stimulated emission - Population inversion - Einstein’s A and B coefficients - Derivation. Types of lasers - Nd : YAG, CO2, Semiconductor lasers (homojunction and heterojunction) - Industrial and medical applications. Principle and propagation of light in optical fibres - Numerical aperture and acceptance angle - Types of optical fibres (Material, Refractive index, Mode) - Attenuation, Dispersion, Bending - Fibre optical communication system (Block diagram) - Active and passive fibre sensors - Endoscope. Printed Pages: 236., Technical Publications, 6, Technical Publications. First edition. Softcover. New. A detail description on Crystal Physics: Lattice - Unit cell - Bravais lattice - Lattice planes - Miller indices - d spacing in cubic lattice - Calculation of number of atoms per unit cell - Atomic radius - Coordination number - Packing factor for SC, BCC, FCC and HCP structures - Diamond and graphite structures (Qualitative treatment)- Crystal growth techniques - Solution, Melt (Bridgman and Czochralski) and vapour growth techniques (Qualitative). Properties of Matter and Thermal Physics: Elasticity - Hooke’s law - Relationship between three modulii of elasticity (Qualitative) - Stress - Strain diagram - Poisson’s ratio - Factors affecting elasticity - Bending moment - Depression of a cantilever -Young’s modulus by uniform bending - I-shaped girders. Modes of heat transfer - Thermal conductivity- Newton’s law of cooling - Linear heat flow - Lee’s disc method - Radial heat flow - Rubber tube method - Conduction through compound media (Series and Parallel). Quantum Physics : Black body radiation - Planck’s theory (derivation) - Deduction of Wien’s displacement law and Rayleigh - Jeans’ Law from Planck’s theory - Compton effect. Theory and experimental verification - Properties of Matter waves - G.P Thomson experiment - Schrödinger’s wave equation - Time independent and time dependent equations - Physical significance of wave function - Particle in a one dimensional box - Electron microscope - Scanning electron microscope - Transmission electron microscope. Acoustics and Ultrasonics: Classification of Sound- Decibel- Weber-Fechner law - Sabine’s formula - Derivation using growth and decay method - Absorption coefficient and its determination - Factors affecting acoustics of buildings and their remedies. Production of ultrasonics by magnetostriction and piezoelectric methods - Acoustic grating - Non destructive testing - Pulse echo system through transmission and reflection modes - A, B and C - Scan displays, Medical applications - Sonogram. Photonics and Fibre Optics : Spontaneous and stimulated emission - Population inversion - Einstein’s A and B coefficients - Derivation. Types of lasers - Nd : YAG, CO2, Semiconductor lasers (homojunction and heterojunction) - Industrial and medical applications. Principle and propagation of light in optical fibres - Numerical aperture and acceptance angle - Types of optical fibres (Material, Refractive index, Mode) - Attenuation, Dispersion, Bending - Fibre optical communication system (Block diagram) - Active and passive fibre sensors - Endoscope. Printed Pages: 236., Technical Publications, 6, Technical Publications. First edition. Softcover. New. A detail description on Crystal Physics: Lattice - Unit cell - Bravais lattice - Lattice planes - Miller indices - d spacing in cubic lattice - Calculation of number of atoms per unit cell - Atomic radius - Coordination number - Packing factor for SC, BCC, FCC and HCP structures - Diamond and graphite structures (Qualitative treatment)- Crystal growth techniques - Solution, Melt (Bridgman and Czochralski) and vapour growth techniques (Qualitative). Properties of Matter and Thermal Physics: Elasticity - Hooke‰Ûªs law - Relationship between three modulii of elasticity (Qualitative) - Stress - Strain diagram - Poisson‰Ûªs ratio - Factors affecting elasticity - Bending moment - Depression of a cantilever -Young‰Ûªs modulus by uniform bending - I-shaped girders. Modes of heat transfer - Thermal conductivity- Newton‰Ûªs law of cooling - Linear heat flow - Lee‰Ûªs disc method - Radial heat flow - Rubber tube method - Conduction through compound media (Series and Parallel). Quantum Physics : Black body radiation - Planck‰Ûªs theory (derivation) - Deduction of Wien‰Ûªs displacement law and Rayleigh - Jeans‰Ûª Law from Planck‰Ûªs theory - Compton effect. Theory and experimental verification - Properties of Matter waves - G.P Thomson experiment - Schr̦dinger‰Ûªs wave equation - Time independent and time dependent equations - Physical significance of wave function - Particle in a one dimensional box - Electron microscope - Scanning electron microscope - Transmission electron microscope. Acoustics and Ultrasonics: Classification of Sound- Decibel- Weber-Fechner law - Sabine‰Ûªs formula - Derivation using growth and decay method - Absorption coefficient and its determination - Factors affecting acoustics of buildings and their remedies. Production of ultrasonics by magnetostriction and piezoelectric methods - Acoustic grating - Non destructive testing - Pulse echo system through transmission and reflection modes - A, B and C - Scan displays, Medical applications - Sonogram. Photonics and Fibre Optics : Spontaneous and stimulated emission - Population inversion - Einstein‰Ûªs A and B coefficients - Derivation. Types of lasers - Nd : YAG, CO2, Semiconductor lasers (homojunction and heterojunction) - Industrial and medical applications. Principle and propagation of light in optical fibres - Numerical aperture and acceptance angle - Types of optical fibres (Material, Refractive index, Mode) - Attenuation, Dispersion, Bending - Fibre optical communication system (Block diagram) - Active and passive fibre sensors - Endoscope. Printed Pages: 236., Technical Publications, 6, Technical Publications. First edition. Softcover. New. A detail description on Crystal Physics: Lattice - Unit cell - Bravais lattice - Lattice planes - Miller indices - d spacing in cubic lattice - Calculation of number of atoms per unit cell - Atomic radius - Coordination number - Packing factor for SC, BCC, FCC and HCP structures - Diamond and graphite structures (Qualitative treatment)- Crystal growth techniques - Solution, Melt (Bridgman and Czochralski) and vapour growth techniques (Qualitative). Properties of Matter and Thermal Physics: Elasticity - Hooke‰Ûªs law - Relationship between three modulii of elasticity (Qualitative) - Stress - Strain diagram - Poisson‰Ûªs ratio - Factors affecting elasticity - Bending moment - Depression of a cantilever -Young‰Ûªs modulus by uniform bending - I-shaped girders. Modes of heat transfer - Thermal conductivity- Newton‰Ûªs law of cooling - Linear heat flow - Lee‰Ûªs disc method - Radial heat flow - Rubber tube method - Conduction through compound media (Series and Parallel). Quantum Physics : Black body radiation - Planck‰Ûªs theory (derivation) - Deduction of Wien‰Ûªs displacement law and Rayleigh - Jeans‰Ûª Law from Planck‰Ûªs theory - Compton effect. Theory and experimental verification - Properties of Matter waves - G.P Thomson experiment - Schr̦dinger‰Ûªs wave equation - Time independent and time dependent equations - Physical significance of wave function - Particle in a one dimensional box - Electron microscope - Scanning electron microscope - Transmission electron microscope. Acoustics and Ultrasonics: Classification of Sound- Decibel- Weber-Fechner law - Sabine‰Ûªs formula - Derivation using growth and decay method - Absorption coefficient and its determination - Factors affecting acoustics of buildings and their remedies. Production of ultrasonics by magnetostriction and piezoelectric methods - Acoustic grating - Non destructive testing - Pulse echo system through transmission and reflection modes - A, B and C - Scan displays, Medical applications - Sonogram. Photonics and Fibre Optics : Spontaneous and stimulated emission - Population inversion - Einstein‰Ûªs A and B coefficients - Derivation. Types of lasers - Nd : YAG, CO2, Semiconductor lasers (homojunction and heterojunction) - Industrial and medical applications. Principle and propagation of light in optical fibres - Numerical aperture and acceptance angle - Types of optical fibres (Material, Refractive index, Mode) - Attenuation, Dispersion, Bending - Fibre optical communication system (Block diagram) - Active and passive fibre sensors - Endoscope. Printed Pages: 236., Technical Publications, 6, Technical Publications. First edition. Softcover. New. A detail description on Crystal Physics: Lattice - Unit cell - Bravais lattice - Lattice planes - Miller indices - d spacing in cubic lattice - Calculation of number of atoms per unit cell - Atomic radius - Coordination number - Packing factor for SC, BCC, FCC and HCP structures - Diamond and graphite structures (Qualitative treatment)- Crystal growth techniques - Solution, Melt (Bridgman and Czochralski) and vapour growth techniques (Qualitative). Properties of Matter and Thermal Physics: Elasticity - Hooke‰Ûªs law - Relationship between three modulii of elasticity (Qualitative) - Stress - Strain diagram - Poisson‰Ûªs ratio - Factors affecting elasticity - Bending moment - Depression of a cantilever -Young‰Ûªs modulus by uniform bending - I-shaped girders. Modes of heat transfer - Thermal conductivity- Newton‰Ûªs law of cooling - Linear heat flow - Lee‰Ûªs disc method - Radial heat flow - Rubber tube method - Conduction through compound media (Series and Parallel). Quantum Physics : Black body radiation - Planck‰Ûªs theory (derivation) - Deduction of Wien‰Ûªs displacement law and Rayleigh - Jeans‰Ûª Law from Planck‰Ûªs theory - Compton effect. Theory and experimental verification - Properties of Matter waves - G.P Thomson experiment - Schr̦dinger‰Ûªs wave equation - Time independent and time dependent equations - Physical significance of wave function - Particle in a one dimensional box - Electron microscope - Scanning electron microscope - Transmission electron microscope. Acoustics and Ultrasonics: Classification of Sound- Decibel- Weber-Fechner law - Sabine‰Ûªs formula - Derivation using growth and decay method - Absorption coefficient and its determination - Factors affecting acoustics of buildings and their remedies. Production of ultrasonics by magnetostriction and piezoelectric methods - Acoustic grating - Non destructive testing - Pulse echo system through transmission and reflection modes - A, B and C - Scan displays, Medical applications - Sonogram. Photonics and Fibre Optics : Spontaneous and stimulated emission - Population inversion - Einstein‰Ûªs A and B coefficients - Derivation. Types of lasers - Nd : YAG, CO2, Semiconductor lasers (homojunction and heterojunction) - Industrial and medical applications. Principle and propagation of light in optical fibres - Numerical aperture and acceptance angle - Types of optical fibres (Material, Refractive index, Mode) - Attenuation, Dispersion, Bending - Fibre optical communication system (Block diagram) - Active and passive fibre sensors - Endoscope. Printed Pages: 236., Technical Publications, 6, S. Chand & Company Ltd, 2008. First edition. Softcover. New. For B.E./B.Tech Students of Kerela Universties. Many topics have been re-arrnaged and many more examples have been icnluded to make the various articles and examples amore lucid and care has been taken to include all the examples that have been set in various university examinations. Contents: Interference, Diffraction, Polarization, Lasers, Fibre Optics, Simple Harmonic Motion, Wave Motion, Ultrasonics and Acoustics, X-rays, Electronic Configuration, General Properties of the Nucleus, Nuclear Models, Natural Radioactivity, Nuclear Reactions and Artificial Radioactivity, Nuclear Fission and Fusion, Crystal Structure, Band Theory of Solids, Metals, Insulators and Semiconductors, Magnetic and Dielectric Properties of Materials, Maxwell’s Equations, Matter Waves and Uncertainty Principle, Quantum Theory, Super-conductivity, Statistics and Distribution Laws, Scalar and Vector Fields Printed Pages: 721., S. Chand & Company Ltd, 2008, 6, S. Chand & Company Ltd, 2008. First edition. Softcover. New. For B.E./B.Tech Students of Kerela Universties. Many topics have been re-arrnaged and many more examples have been icnluded to make the various articles and examples amore lucid and care has been taken to include all the examples that have been set in various university examinations. Contents: Interference, Diffraction, Polarization, Lasers, Fibre Optics, Simple Harmonic Motion, Wave Motion, Ultrasonics and Acoustics, X-rays, Electronic Configuration, General Properties of the Nucleus, Nuclear Models, Natural Radioactivity, Nuclear Reactions and Artificial Radioactivity, Nuclear Fission and Fusion, Crystal Structure, Band Theory of Solids, Metals, Insulators and Semiconductors, Magnetic and Dielectric Properties of Materials, Maxwell‰Ûªs Equations, Matter Waves and Uncertainty Principle, Quantum Theory, Super-conductivity, Statistics and Distribution Laws, Scalar and Vector Fields Printed Pages: 721., S. Chand & Company Ltd, 2008, 6, S. Chand & Company Ltd, 2008. First edition. Softcover. New. For B.E./B.Tech Students of Kerela Universties. Many topics have been re-arrnaged and many more examples have been icnluded to make the various articles and examples amore lucid and care has been taken to include all the examples that have been set in various university examinations. Contents: Interference, Diffraction, Polarization, Lasers, Fibre Optics, Simple Harmonic Motion, Wave Motion, Ultrasonics and Acoustics, X-rays, Electronic Configuration, General Properties of the Nucleus, Nuclear Models, Natural Radioactivity, Nuclear Reactions and Artificial Radioactivity, Nuclear Fission and Fusion, Crystal Structure, Band Theory of Solids, Metals, Insulators and Semiconductors, Magnetic and Dielectric Properties of Materials, Maxwell’s Equations, Matter Waves and Uncertainty Principle, Quantum Theory, Super-conductivity, Statistics and Distribution Laws, Scalar and Vector Fields Printed Pages: 721., S. Chand & Company Ltd, 2008, 6, S. Chand & Company Ltd, 2008. First edition. Softcover. New. For B.E./B.Tech Students of Kerela Universties. Many topics have been re-arrnaged and many more examples have been icnluded to make the various articles and examples amore lucid and care has been taken to include all the examples that have been set in various university examinations. Contents: Interference, Diffraction, Polarization, Lasers, Fibre Optics, Simple Harmonic Motion, Wave Motion, Ultrasonics and Acoustics, X-rays, Electronic Configuration, General Properties of the Nucleus, Nuclear Models, Natural Radioactivity, Nuclear Reactions and Artificial Radioactivity, Nuclear Fission and Fusion, Crystal Structure, Band Theory of Solids, Metals, Insulators and Semiconductors, Magnetic and Dielectric Properties of Materials, Maxwell‰Ûªs Equations, Matter Waves and Uncertainty Principle, Quantum Theory, Super-conductivity, Statistics and Distribution Laws, Scalar and Vector Fields Printed Pages: 721., S. Chand & Company Ltd, 2008, 6, S. Chand & Company Ltd, 2008. First edition. Softcover. New. For B.E./B.Tech Students of Kerela Universties. Many topics have been re-arrnaged and many more examples have been icnluded to make the various articles and examples amore lucid and care has been taken to include all the examples that have been set in various university examinations. Contents: Interference, Diffraction, Polarization, Lasers, Fibre Optics, Simple Harmonic Motion, Wave Motion, Ultrasonics and Acoustics, X-rays, Electronic Configuration, General Properties of the Nucleus, Nuclear Models, Natural Radioactivity, Nuclear Reactions and Artificial Radioactivity, Nuclear Fission and Fusion, Crystal Structure, Band Theory of Solids, Metals, Insulators and Semiconductors, Magnetic and Dielectric Properties of Materials, Maxwells Equations, Matter Waves and Uncertainty Principle, Quantum Theory, Super-conductivity, Statistics and Distribution Laws, Scalar and Vector Fields Printed Pages: 721. NA, S. Chand & Company Ltd, 2008, 6, S. Chand & Company Ltd, 2008. First edition. Softcover. New. For B.E./B.Tech Students of Kerela Universties. Many topics have been re-arrnaged and many more examples have been icnluded to make the various articles and examples amore lucid and care has been taken to include all the examples that have been set in various university examinations. Contents: Interference, Diffraction, Polarization, Lasers, Fibre Optics, Simple Harmonic Motion, Wave Motion, Ultrasonics and Acoustics, X-rays, Electronic Configuration, General Properties of the Nucleus, Nuclear Models, Natural Radioactivity, Nuclear Reactions and Artificial Radioactivity, Nuclear Fission and Fusion, Crystal Structure, Band Theory of Solids, Metals, Insulators and Semiconductors, Magnetic and Dielectric Properties of Materials, Maxwell’s Equations, Matter Waves and Uncertainty Principle, Quantum Theory, Super-conductivity, Statistics and Distribution Laws, Scalar and Vector Fields Printed Pages: 721., S. Chand & Company Ltd, 2008, 6, S. Chand & Company Ltd, 2008. First edition. Softcover. New. For B.E./B.Tech Students of Kerela Universties. Many topics have been re-arrnaged and many more examples have been icnluded to make the various articles and examples amore lucid and care has been taken to include all the examples that have been set in various university examinations. Contents: Interference, Diffraction, Polarization, Lasers, Fibre Optics, Simple Harmonic Motion, Wave Motion, Ultrasonics and Acoustics, X-rays, Electronic Configuration, General Properties of the Nucleus, Nuclear Models, Natural Radioactivity, Nuclear Reactions and Artificial Radioactivity, Nuclear Fission and Fusion, Crystal Structure, Band Theory of Solids, Metals, Insulators and Semiconductors, Magnetic and Dielectric Properties of Materials, Maxwell‰Ûªs Equations, Matter Waves and Uncertainty Principle, Quantum Theory, Super-conductivity, Statistics and Distribution Laws, Scalar and Vector Fields Printed Pages: 721., S. Chand & Company Ltd, 2008, 6, S. Chand & Company Ltd, 2008. First edition. Softcover. New. For B.E./B.Tech Students of Kerela Universties. Many topics have been re-arrnaged and many more examples have been icnluded to make the various articles and examples amore lucid and care has been taken to include all the examples that have been set in various university examinations. Contents: Interference, Diffraction, Polarization, Lasers, Fibre Optics, Simple Harmonic Motion, Wave Motion, Ultrasonics and Acoustics, X-rays, Electronic Configuration, General Properties of the Nucleus, Nuclear Models, Natural Radioactivity, Nuclear Reactions and Artificial Radioactivity, Nuclear Fission and Fusion, Crystal Structure, Band Theory of Solids, Metals, Insulators and Semiconductors, Magnetic and Dielectric Properties of Materials, Maxwells Equations, Matter Waves and Uncertainty Principle, Quantum Theory, Super-conductivity, Statistics and Distribution Laws, Scalar and Vector Fields Printed Pages: 721. NA, S. Chand & Company Ltd, 2008, 6, Narosa Publishing House, 2014. Hardcover. New. 16 x 24 cm. Controlling noise in buildings is an important part of an architect`s and engineer`s responsibility. This book provides practical guidelines on avoiding noise problems during the design and construction of new buildings, and eliminating noise in existing structures. Leading experts in noise control cover such topics as properties of sound absorptive materials, acoustical characteristics of rooms, airborne sound insulation, and structure-borne sound insulation. Included are proven methods - and technical data - for dealing with noise, HVAC systems, plumbing systems, and machinery, plus information on the design of buildings for noise control. Now available to a new generation, this classic is a must-have for architects, interior designers, engineers, and all others concerned with the design and construction of buildings who need to know the basics of architectural acoustics, but who don’t have the time to digest wordy presentations. Printed Pages: 172., Narosa Publishing House, 2014, 6<

2014, ISBN: 9788184873429

Narosa Publishing House, 2014. Hardcover. New. 16 x 24 cm. Controlling noise in buildings is an important part of an architect`s and engineer`s responsibility. This book provides practi… More...

Narosa Publishing House, 2014. Hardcover. New. 16 x 24 cm. Controlling noise in buildings is an important part of an architect`s and engineer`s responsibility. This book provides practical guidelines on avoiding noise problems during the design and construction of new buildings, and eliminating noise in existing structures. Leading experts in noise control cover such topics as properties of sound absorptive materials, acoustical characteristics of rooms, airborne sound insulation, and structure-borne sound insulation. Included are proven methods - and technical data - for dealing with noise, HVAC systems, plumbing systems, and machinery, plus information on the design of buildings for noise control. Now available to a new generation, this classic is a must-have for architects, interior designers, engineers, and all others concerned with the design and construction of buildings who need to know the basics of architectural acoustics, but who don’t have the time to digest wordy presentations. Printed Pages: 172., Narosa Publishing House, 2014, 6<

2014, ISBN: 9788184873429

Narosa Publishing House, 2014. Hardcover. New. 16 x 24 cm. Controlling noise in buildings is an important part of an architect`s and engineer`s responsibility. This book provides practi… More...

Narosa Publishing House, 2014. Hardcover. New. 16 x 24 cm. Controlling noise in buildings is an important part of an architect`s and engineer`s responsibility. This book provides practical guidelines on avoiding noise problems during the design and construction of new buildings, and eliminating noise in existing structures. Leading experts in noise control cover such topics as properties of sound absorptive materials, acoustical characteristics of rooms, airborne sound insulation, and structure-borne sound insulation. Included are proven methods - and technical data - for dealing with noise, HVAC systems, plumbing systems, and machinery, plus information on the design of buildings for noise control. Now available to a new generation, this classic is a must-have for architects, interior designers, engineers, and all others concerned with the design and construction of buildings who need to know the basics of architectural acoustics, but who don’t have the time to digest wordy presentations. Printed Pages: 172., Narosa Publishing House, 2014, 6<

2014, ISBN: 9788184873429

Narosa Publishing House, 2014. Hardcover. New. 16 x 24 cm. Controlling noise in buildings is an important part of an architect`s and engineer`s responsibility. This book provides practi… More...

Narosa Publishing House, 2014. Hardcover. New. 16 x 24 cm. Controlling noise in buildings is an important part of an architect`s and engineer`s responsibility. This book provides practical guidelines on avoiding noise problems during the design and construction of new buildings, and eliminating noise in existing structures. Leading experts in noise control cover such topics as properties of sound absorptive materials, acoustical characteristics of rooms, airborne sound insulation, and structure-borne sound insulation. Included are proven methods - and technical data - for dealing with noise, HVAC systems, plumbing systems, and machinery, plus information on the design of buildings for noise control. Now available to a new generation, this classic is a must-have for architects, interior designers, engineers, and all others concerned with the design and construction of buildings who need to know the basics of architectural acoustics, but who dont have the time to digest wordy presentations. Printed Pages: 172. NA, Narosa Publishing House, 2014, 6<

2014, ISBN: 9788184873429

Fundamental and Applications, Buch, Hardcover, [PU: Narosa Publishing House], Narosa Publishing House, 2014