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Unit – IV: Coupled & Poly phase Circuits: Coupled Circuits: Mutual inductance –Coupling Coefficient – Transformer-Tuned Coupled Circuits (Single, Double). Poly Phase Circuits: Two phase systems – Three phase systems- Wye and Delta Systems- Phasor Voltages- Balanced & Unbalanced loads- Three phase power – Power measurement and the two wattmeter method. Unit – V : Transients: Differential Equations- Laplace Transform- Steady state and transient response: DC response of RL,RC, and RLC circuits – Sinusoidal response of RL, RC and RLC circuits – Resonance: Natural frequency and Damping Ratio- Series Resonance- Parallel Resonance- Quality Factor – Practical LC Parallel Circuit- Series parallel conversions – Locus Diagrams. Text Book: 1. Joseph. A.Edminister and Mahmood Nahvi, “Theory and Problems of Electric Circuits”, Tata McGraw-Hill, 2002. 2. Jack E. Kemmerly, William H. Hayt and Steven M. Durbin, “Engineering Circuit Analysis”, McGraw- Hill, 2001. Reference Books: 1. Mahmood Nahvi, Joseph A. Edminister, William T. Smith, “Schaum's Easy Outlines: Electric Circuits” Tata McGraw-Hill, 2004. 2. K.V.V. Murthy and M.S.Kamath, “Basic Circuit Analysis”, 1st edition (reprinted with corrections) Jaico Publishing, 1998. 3. Robert L. Boylested, “Experiments in Circuit Analysis to Accompany Introductory Circuit Analysis”, Prentice Hall India, 9th Edition, 2000. 4. Sudhakar A and Shyammohan SP, “Circuits and Networks – Analysis and Synthesis”, Tata McGraw Hill, 2002. D24 APPLIED MATERIALS SCIENCE L T P C 3 1 0 4 Unit – I: Conducting Materials: Quantum free electron theory – theory of electrical and thermal conductivity – Widemann Franz Law –problems-Examples of conducting materials – Cu, A1, Ag – Structural features – Properties – applications. Super Conducting Materials: High temperature super conducting materials – examples – RVB theory - applications – SQUID. Unit – II: Semi Conducting Materials: Hall effect – Hall co-efficient determination – elemental semiconductors – Group IV elements – general properties – common dopants – Group VI elements – properties – Inter-metallic compounds – general features – properties - advantages – GaAS – InSb – properties – structural features – applications – compound semiconductors – CdS – CdSe – CdTe – properties – structural features – applications – Role of oxygen in conductivity – ZnO – Mg O – structural
properties – advantages. Unit – III: Magnetic Materials: Types of magnetic materials – Weiss theory of ferro magnetism – ferro magnetic materials Fe, Co, Ni – general properties – applications – hard and soft magnetic materials – properties – ferrites – properties – applications. Electromagnetic smart materials: An algorithm for synthesizing smart materials – Sensors – Actuators – Processors – Shape memory Alloys, Ni –Ti alloys, Cu – Zn alloys – Characteristics – applications – Smart materials featuring piezo-electric elements. Unit – IV: Dielectric Materials: Internal field – Clausius Mosotti equation-derivation – numerical examples – ferro electricity – ferro electric materials – Ba Ti O3 – Piezo electric materials – Quartz, rock salt – Ba Ti O3 – Insulating materials-examples. Optical Materials : Colour Centres (F & V Centres) – Optical fibres – glass and plastic fibres – Characteristics – Structural features – applications Luminescent and fluorescent materials – ZnS – BaS – properties and applications. Unit – V: Characterization Techniques: Thermal Analytical techniques- TGA, DSC, DTA – X ray Analysis – Electron beam techniques- SEM, TEM- Atomic Force Microscopy – Spectroscopic methods -NMR, ESR, MW spectroscopy. Text Books: 1. Charles Kittel, “Introduction to Solid State Physics”, John Wiley & Sons 1997. 2. Azaraf & Brophy, “Electronic Processes in Materials”, Mc Graw Hill 1963. References: 1. A.M. Wahab, “Solid State Physics”, Narasha Publishing house, New Delhi, 1999. 2. M.V. Gandhi & SS Thompson, “Smart Materials & Structures”, Chapman & Hall, London 1992. 3. William David Cooper, “Electronic Instrumentation and Measurements”, Dhanpat Rai & Sons, New Delhi 1997. 4. S.O. Pillai, “Solid State Physics”, New Age International (P) Ltd., 2000. 5. B.P. Stranghan and S. Walker, “Spectroscopy-Vol. I”, Chapman and Hall Ltd., London, 1996. 6. Belk. J.A., “Electron Microscopy and Micro Analysis of Crystalline Materials”, Applied Science Publishers, London, 1999. D25 APPLIED CHEMISTRY L T P C Unit – I: Electrochemistry: Electrode potential – Ernst equation – 3 1 0 4 Electrochemical series – Decomposition potential – Over voltage – Polarization – Reversible and Irreversible Electrodes and Cells. Interfacial phenomenon – Zeta potential – Electro osmosis – Electrophoresis – Streaming Potential – Dorn Effect – Electrodialysis. Electrotechnical Processes – Electrowinning – Electrocleaning – Electropolishing - Electroforming. Unit – II: Electroanalytical Instrumentation: Electrodes and their types – Gas, Metal and Metal compounds – Standard and Reference - Chemically modified Electrodes – Clarke’s electrode. Conductivity, Potential and pH measurements.– Galvanometry and Potentiometry – Pulse forms and sequences for Voltammetry – Electron transfer and relay systems – Morphology and Particles size analysis including Nanoparticles – X-ray diffraction, Scanning Electron Microscope, Transmission Electron Microscope methods (principles only). Radio isotopes and Radiochemistry for Clinical applications. Unit – III: Chemistry and Applications of Advanced Materials: Conducting Polymers: Organic conducting molecules and polymers – Preparation, properties an characterization – Conducting copolymers – Conducting polymer composites, metals, metal oxides. Nanoparticles: Preparation – Physico-chemical
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