#1
10th April 2015, 04:49 PM
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Kalasalingam University Syllabus For ECE
Hey,I am the student of B.tech in Kalasalingam University. I forgot to bring my curriculum and syllabus. It affect my studies very much. Will you provide me any way to get B.Tech. E.C.E. Curriculum and Syllabus?
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#2
2nd June 2018, 11:33 AM
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Re: Kalasalingam University Syllabus For ECE
I am searching for syllabus of B.Tech ECE Program offering by Kalasalingam University. I have searched for syllabus but didn’t get anything. My friend suggested me for this site, so can anyone provide syllabus of B.Tech ECE Program of Kalasalingam University?
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#3
2nd June 2018, 11:34 AM
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Re: Kalasalingam University Syllabus For ECE
As you are looking for syllabus of B.Tech ECE Course offering by Kalasalingam University, so I am providing complete syllabus for your reference: KALASALINGAM UNIVERSITY B.TECH ECE SYLLABUS: I BASIC SCIENCES AND MATHEMATICS PHY17R171 Engineering Physics: Unit 1: Modern Optics 12 Hours Laser and its properties Spontaneous and stimulated emission - Einsteins coefficients - Population inversion Pumping The principle pumping schemes Gas laser (He-Ne laser) Solid state laser (Nd-YAG laser) - Hologram -construction and reconstruction process General ideas of optical fibre Numerical aperture and Acceptance angle of fibre Types of optical fibre - Applications Unit 2: Acoustics and Ultrasonics 12 Hours Classification of sound decibel Weber Fechner law Reverberation-Sabine’s formula derivation of Sabine’s equation Acoustic design of a Hall Common acoustical defects and their remedies - Production of ultrasonic by magnetostriction and piezo electric methods Acoustical grating SONAR - depth of sea Unit 3: Crystallography 12 Hours Crystalline and amorphous solids lattice and unit cell seven crystal systems and Bravais lattices 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 Crystal preparation by slow evaporation and Czochralski method - Bragg’s law for X-ray diffraction Unit 4: Relativity and Quantum Physics 12 Hours Special theory of relativity Lorentz transformation equations length contraction time dilation relativity of simultaneity addition of velocities variation of mass with velocity mass-energy equivalence. Photo electric effect Wave nature of matter- de-Broglie waves Davisson and Germer experiment, Schrodinger’s wave equation (Time dependant and time independent equations)- particle confined in a one-dimensional potential well Unit 5: Properties of Matter and Thermal Physics 12 Hours Elasticity- Hooke’s law - stress -strain diagram Poisson’s ratio Factors affecting elasticity Bending moment Young’s modulus by uniform bending-Non-uniform bending- I-shaped girder. Specific heat capacity - definition - Newton's law of cooling. Thermal conductivity Forbe’s and Lee's disc methods List of Experiments: 1. Torsional pendulum- Determination of Rigidity Modulus of a Wire 2. Uniform Bending Determination of Young’s Modulus 3. ViscosityDetermination of Co-efficient of Viscosity of Liquid by Poiseuille’s Flow 4. Ultrasonic InterferometerVelocity of Ultrasonic waves in a Liquid and Compressibility of the Liquid 5. Spectrometer Determination of Wavelength of Hg Source using Grating 6. Non-uniform Bending - Determination of Young’s Modulus 7. Laser- Determination of Wavelength and particle Size Using Grating 8. Compound pendulum Determination of the acceleration due to gravity 9. Newton’s Rings - Radius of curvature of convex lens. 10. Sonometer - Determination of frequency of tuning fork PHY17R151 Materials Physics I: Unit 1: Conducting Materials 9 Hours Classical free electron theory of metals drawbacks - Quantum free electron theory of metals and its importance (Qualitative) - Fermi distribution function Density of energy states and carrier concentration in metals Fermi energy Band theory of solids classification of solids. Unit 2: Semiconducting Materials 9 Hours Intrinsic semiconductors - carrier concentration (derivation) Fermi energy Variation of Fermi energy level with temperature - Mobility and electrical conductivity Band gap determination - Extrinsic semiconductors - carrier concentration in n-type (derivation) Variation of Fermi level with temperature and impurity concentration Hall effect Experiment and applications of Hall effect. Unit 3: Magnetic and Superconducting Materials 9 Hours Origin of magnetic moment Bohr magneton comparison of Dia, Para and Ferro magnetism Domain theory Hysteresis soft and hard magnetic materials Ferrites and its applications. Superconductor - definition Meissner effect type I & II superconductors BCS theory (qualitative) high temperature superconductors Josephson Effect (qualitative) SQUID Sapplications of superconductors. Unit 4: Dielectric Materials and Advanced Materials 9 Hours Electrical susceptibility dielectric constant electronic, ionic, orientational and space charge polarization internal field Claussius Mosotti relation (derivation) dielectric loss dielectric breakdown. Nanomaterials - introduction and properties synthesis chemical vapour deposition pulsed laser deposition. Biometrics Introduction Definition Instrumentation Devices Advantages. Unit 5: Opto-Electronics 9 Hours Electro-optic effect: Kerr effect, Pockels effect, Electro-optic amplitude and phase modulation, Electro-optic effect in KDP crystals - longitudinal and transverse modes, electro-optic effect in lithium niobate. LED: Principle working applications LCD: types - construction working principle applications. List of Experiments (Any 5): 1. Specific heat capacity-Joule’s colorimeter 2. Study the polarization of light by reflection and to determine the polarizing angle for air-glass interface 3. Characteristics of a transistor 4. Determine the dielectric constant of a dielectric placed inside a parallel plate capacitor using a B.G. 5. Four probe method-determination of bandgap of semiconductor 6. Determination of M and BH CHY17R171 Chemistry Unit 1: Water Technology 9 Hours Water quality parameters - BIS and WHO standards - Determination of alkalinity of water - Hardness - Estimation of hardness by EDTA method. Water softening - Zeolite and Demineralisation (Ion - exchangers) processes. Boiler troubles and remedies. Desalination by electro dialysis and reverse osmosis. Treatment of water for domestic use Unit 2: Thermodynamics 9 Hours Definition of thermodynamic terms - system and surroundings - types of system - intensive and extensive properties - thermodynamic processes - statement of first and second law of thermodynamics Internal energy (E) and enthalpy (H). Molar heat capacities at constant volume (Cv) and at constant pressure (Cp) - relation between Cp and Cv. Concept of entropy - change in entropy for an isothermal expansion of an ideal gas, reversible and irreversible processes- problems. Free energy (G) and work function (A) - Gibbs-Helmholtz equation - problems - Van’t Hoff isotherm problems. Phase rule - phase diagram- Applications to one component system (water) and two component system (Pb-Ag). Unit 3: Electrochemistry 9 Hours Electrode potential - Electrochemical cell - Emf of an electrochemical cell - Determination of Emf of a cell - Nernst equation. Batteries - Primary and secondary batteries - Lechlanche’s cell - Lead acid storage battery, Lithium battery, Fuel cell (H2-O2) and solar battery. Corrosion - types of corrosion - Principle and mechanism of chemical and electrochemical corrosion - Corrosion protection by sacrificial anode and impressed current techniques (cathodic protection) Unit 4: Polymers and Composites 9 Hours Introduction and classification of polymers - polymerisation - chain growth and step growth - Free radical mechanism of addition polymerisation. Molecular weight determination - viscometry. Preparation, properties and uses of industrial polymers: Polyethylene, PVC, PTFE and Nylon-6,6 - Thermoplastic & Thermosets - example and differences. Polymer processing techniques - injection and blow moulding. Polymer composites - Preparation, types and uses of fibre reinforced polymer (FRP) composites. Unit 5: Analytical Techniques 9 Hours Principles, instrumentation and applications of UV-Visible spectroscopy, Infra-Red spectroscopy and Atomic Absorption Spectroscopy (AAS), High Performance Liquid Chromatography (HPLC), Thermogravimetric analysis (TGA). List of Experiments: 1. Estimation of hardness of water sample by EDTA method. 2. Determination of alkalinity of given water sample. 3. Determination of dissolved oxygen in a water sample. 4. Determination of sulphate by Turbidimetric method. 5. Estimation of hydrochloric acid by pH titration. 6. Estimation of chloride ion in each water sample. 7. Estimation of ferrous ion by potentiometric method. 8. Conductometric titration of using BaCl2 Vs Na2SO4. 9. Corrosion experiment-weight loss method. 10. Conductometric titration of strong acid with strong base. Kalasalingam University B.Tech ECE Syllabus kalasalingam.ac.in/site/wp-content/uploads/2017/07/B.Tech_.-ECE-Syllabus-for-students-joined-2017-18-onwards.pdf |
#4
16th August 2022, 03:33 PM
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Hi senior I'm first year is that details is valuable for first year ...???
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