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18th July 2017, 03:30 PM
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| Re: SNGCET Syllabus
As you want syllabus of B.Tech Mechanical Engineering Course offering by SNG COLLEGE OF ENGINEERING & TECHNOLOGY (SNGCET), so here I am providing syllabus: SNG College of Engineering & Technology (SNGCET) B.Tech Mechanical Engineering Syllabus Semester I 2K6 EN101 Engineering Mathematics I 2K6 EN102 Engineering Physics 2K6 EN103 Engineering Chemistry 2K6 EN104 Engineering Mechanics 2K6 EN105 Engineering Graphics 2K6 EN106 Basic Civil Engineering 2K6 EN107 Basic Mechanical Engineering 2K6 EN108 Basic Electrical Engineering 2K6 EN109 Basic Electronics and Computer Engineering 2K6 EN110 P Basic Engineering Laboratory (Surveying, Fitting, Carpentry, Foundry, Smithy, Welding & Sheet metal) 2K6 EN111 P Basic Electrical & Electronics Work shop (Wiring, Soldering & Study of Basic Computer Hardware) 2K6 EN101: ENGINEERING MATHEMATICS I Module I: Ordinary differential equations (16 hours) A brief review of the method of solutions first order equations- Separable, homogeneous and linear types-Exact equations- Orthogonal trajectories-General linear second order equations homogeneous linear equation of the second order with constant coefficients-Fundamental system of solutions-Method of variation of parameters-Cauchy’s equation. Module II: Laplace transforms (17 hours) Gamma and Beta functions-Definition and simple properties-Laplace transform - Inverse transform-Laplace transform of derivatives and integrals-Shifting theorems – Differentiation and integration of transforms - Transforms of unit step function and impulse function-Transforms of periodic functions-Solutions of ordinary differential equations using Laplace transforms. Module III: Vector differential calculus (18 hours) Functions of more than one variable-Idea of partial differentiation-Euler’s theorem for homogeneous functions-Chain rule of partial differentiation-Application in errors and approximations. Vector function of single variable-Differentiation of vector functions – Scalar and vector fields-Gradient of a scalar field-Divergence and curl of vector fields – Their physical meanings-Relation between the vector differential operators. Module IV: Fourier series and harmonic analysis (15 hours) Periodic functions-Trigonometric series-Euler formulae-Even and odd functions – Functions having arbitrary period-Half range expansions-Numerical method for determining Fourier coefficients- Harmonic analysis 2K6 EN102 : ENGINEERING PHYSICS Module I (11 hours) Interference of light : Interference from plane parallel thin films - Colours of thin films by reflected light- Newton’s rings Measurement of wave length-Thin wedge shaped air film-Air wedge-Testing of optical planes of surfaces. Diffraction of light-Introduction to Fresnel and Fraunhofer diffraction-Distinction between the two diffractions-Simple theory of plane transmission grating. Polarization of light-Double refraction-Nicol prism-Quarter and half wave plates – Production and detection of elliptically and circularly polarized light-Rotatory polarization-Laurent’s half shade polarimeter-Applications of polarized light. Module II (11 hours) Quantum Mechanics Newtonian Mechanics and quantum mechanics-Uncertainty principle-The wave functions – Shrodinger wave equation for free particle-Potentials in Shrodinger equation-Time independent Shrodinger equation - Time dependent Shrodinger equation - Expectation values-Derivation of Shrodinger equation- Application-Particle in a box ( motion in one dimension) NMR and ESR-Basic principles of Nuclear Magnetic Resonance (NMR) and Electron Spin Resonance (ESR)-Experimental Method for detection of NMR and ESR-Applications Module III (11 hours) Laser Physics-Basic concepts of Laser-Spontaneous and stimulated emission-Absorption – Population inversion-Optical Pumping-Construction and components of Laser-Ruby Laser, Helium-Neon Laser and semiconductor laser-Applications-Basic principle of Holography and its application Fibre Optics-Basic Principles-Fiber Construction-Fiber Dimensions-Light propagation in fiber-Signal Distortion in optical fibers and transmission losses (Brief ideas only )-Light Wave communication using optical fibers and its advantages-Fiber Amplifiers and EDFAs-Applications of optical fibers. Non Destructive Testing –X-rays –Properties and production-X-ray radiography-Stereo radiography-CT scan-Ultra sonics-properties-NDT using ultrasonics-Electrical method Magnetic method-ultrasound scanning -MRI scan Module IV (13 hours) Electron theory of solids. Classical free electron theory- drift velocity - conductivity – relaxation time-mean free path-temperature dependence of resistivity-relation between thermal and electrical conductivities ( Weidman-Frenz law )-Quantum free electron theory - density of states- Fermi distribution function- Fermi energy Band theory of solids (Qualitative only)- Band structure of metals, semiconductors and insulators-Classifications of semiconductors on the basis of Fermi level and Fermi energy – Impurity levels in N- type and P- type semi conductors. Hall effect- introduction-Measurement of Hall voltage and Hall coefficient-Importance of Hall effect. Super conductivity-Properties of superconductors-Josephson effect and tunneling (qualitative)-B.C.S Theory of superconductivity (qualitative )-Applications of superconductivity. SNG College of Engineering & Technology (SNGCET) B.Tech Mechanical Engineering Syllabus   Last edited by Rajkumar Agarwal; 18th July 2017 at 03:45 PM. |