{"product_id":"9789355859143-3","title":"Physics for  GTU 24 Course  (I\/II- COMMON - BE01000021)","description":"\u003cp\u003eSyllabus Physics  Total Credits L+T+ (PR\/2)\tAssessment Pattern and Marks\tTotal Marks C\tTheory\tTutorial \/ Practical\t \tESE(E)\tPA\/CA(M)\tPA\/CA (I)\tESE(V)\t 4\t70\t30\t20\t30\t150  Unit No.\tContent    1.\tPROPERTIES OF MATTER •\tStress - Strain - Hooke’s law. •\tElastic Behaviour of Material. •\tYoung’s modulus by cantilever depression. •\tNon-uniform bending. •\tUniform bending. •\tApplication - I - shaped girders. •\tTorsional Pendulum - Couple per unit twist of a wire, Time period. •\tApplication - Determination of Rigidity Modulus. (Chapter - 1)    2.\tWAVES, MOTION AND ACOUSTICS •\tSimple Harmonic motion, Free, forced, Resonance. •\tDamped and undamped vibration. •\tDamped harmonic motion. •\tForce vibration and amplitude resonance. •\tVelocity resonance and energy intake. •\tWave motion, transverse and longitudinal vibration. •\tSound absorption and reverberation. •\tSabine's formula and usage (excluding derivation). •\tAcoustic of building. •\tUltrasonic waves - Properties - Generation - Piezoelectric method - Detection - Kundt’s tube. •\tApplication of Ultrasonics in industries - NDT. (Chapter - 2)     3.\tOPTICS •\tHuygens' Principle : Fundamental principle for wave propagation. •\tSuperposition of Waves : Basic principle for understanding interference and diffraction. •\tExplanation of constructive and destructive interference. •\tApplications in thin film interference, such as soap bubbles and oil films. •\tYoung’s double slit experiment. •\tNewton’s rings. •\tMichelson Interferometer. •\tAnti-reflection coating. •\tFresnel and Fraunhofer diffraction - diffraction due to ‘n’ slits- plane transmission grating. •\tRayleigh criterion for limit of resolution - resolving power of grating.  (Chapter - 3)    4.\tQUANTUM PHYSICS •\tBlack body Radiation-Planck’s law. •\tEnergy distribution function. •\tWave-particle duality-de Broglie matter waves. •\tConcept of the wave function and its physical significance - Heisenberg’s Uncertainty Principle. •\tSchrodinger’s wave equation - Time-independent and Time -dependent equations. •\tParticle in a one-dimensional rigid box - tunneling (Qualitative) - Scanning Tunnelling Microscope.  (Chapter - 4)    5.\tLASERS •\tProperties of Laser, Einstein’s theory of matter radiation : A and B coefficients. •\tAmplification of light by population inversion. •\tDifferent types of lasers. •\tGas lasers (He-Ne). •\tSolid-state lasers (Ruby laser). •\tProperties of laser beams : Mono-chromaticity, coherence, directionality and brightness, laser speckles. •\tApplications of lasers in science, engineering and medicine.  (Chapter - 5)       6.\tNEW ENGINEERING MATERIALS SEMICONDUCTOR MATERIALS : •\tIntroduction of Group IV elements. •\tProperties. •\tConcept of carriers. •\tConcept of bands and band gap. •\tP-type, N-type materials. •\tIntroduction to P-N Junction Diode and I-V characteristics. •\tZener diode and its characteristics. SUPERCONDUCTING MATERIALS : •\tIntroduction - Properties. •\tMeissner effect. •\tType I \u0026amp; Type II superconductors. •\tApplications. NANOMATERIALS : •\tIntroduction. •\tSynthesis of nano materials - Top down and Bottom up approach •\tBall milling. •\tPVD method. •\tApplications.  (Chapter - 6)\u003c\/p\u003e","brand":"Technical Publications","offers":[{"title":"Default Title","offer_id":46822119932075,"sku":"11948883532","price":390.0,"currency_code":"INR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0620\/3355\/9723\/files\/9789355859143_3_ffed5fb9-6625-4904-a9cf-c86f13b83eb4.jpg?v=1780730317","url":"https:\/\/technicalpublications.in\/products\/9789355859143-3","provider":"Technical Publications","version":"1.0","type":"link"}