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      Syllabus
      FMFM
      Fluid Mechanics & Fluid Machines (Syllabus)

      FLUID MECHANICS & FLUID MACHINES

      Course Code: CE402

      Module I: Basic concepts and Definitions- Distinction between a fluid and a solid Density,

      2nd year UG courses Engg. & Tech Jharkhand University of Technology
      Specific weight, Specific gravity, Kinematic and dynamic viscosity, variation of viscosity with
      temperature, Newton law of viscosity; vapor pressure, boiling point, cavitations; surface tension,
      capillarity, Bulk modulus of elasticity, compressibility (4 hrs)
      Module II: Fluid Statics- Fluid Pressure: Pressure at a point, Pascal’s law, pressure variation
      with temperature, density and altitude. Piezometer, U-Tube Manometer, Single Column
      Manometer, U-Tube Differential Manometer, Micromanometers, pressure gauges, Hydrostatic
      pressure and force: horizontal, vertical and Inclined surfaces. Buoyancy and stability of floating
      bodies (6 hrs)
      Module III: Fluid Kinematics- Classification of fluid flow: steady and unsteady flow; uniform
      and non- uniform flow; laminar and turbulent flow; rotational and irrotational flow; compressible
      and incompressible flow; ideal and real fluid flow; one, two and three dimensional flows; Stream
      line, path line, streak line and stream tube; stream function. velocity potential function. One, two
      and three dimensional continuity equations in Cartesian coordinates (6 hrs)
      Module IV: Fluid Dynamics – Surface and body forces: Equations of motion- Euler’s equation;
      Bernoulli’s equations- derivation; Energy Principle; Practical applications of Bernoulli’s
      equation: venturimeter, orifice meter and pitot tube; Momentum principle; Forces exerted by
      fluid flow on pipe bend; Vortex Flow – Free and Forced (8 hrs)
      Module V: Boundary layer theory, laminar and turbulent flow and flow through pipes (6 hrs)
      Module VI: Dimensional Analysis and Dynamics Similitude- Definitions of Reynolds Number,
      Froude Number, Mach Number, Weber Number and Euler Number; Buckingham’s π- Theorem .
      (4 hrs)
      Module VII: Fluid machines; Impact of Jets; Introduction to Turbines and Pumps (8 hrs)
      Text/Reference Books:
      1. Fluid Mechanics and Machinery, C.S.P. Ojha, R. Berndtsson and P.N. Chandramouli,
      Oxford University Press 2010
      2. Hydraulics and Fluid Mechanics, P.M. Modi and S.M. Seth, Standard Book House.
      3. Theory and Applications of Fluid Mechanics, K. Subramanya, Tata McGraw Hill
      4. Fluid Mechanics with Engineering Applications, R.L. Daugherty, J.B. Franzini and E.J.
      Finnemore, International Student Edition, Mc Graw Hill.
      5. Elementary fluid mechanics, Dr. R.J. Garde.
      6. Fluid Mechanics, R.K. Bansal.

      EIE
      Electronics & Instrumentation Engg. (Syllabus)

      ELECTRONICS AND INSTRUMENTATION ENGINEERING

      Course code – EC404

      Module 1: Basic Electronic Components
      Active and Passive Components, Types of resistors and Colour coding, Capacitors, Inductors
      applications of Resistor, Capacitor and Inductor, Relay, LDR, Basic Integrated Circuits ( IC
      7805, 7809, 7812, 555 etc.).Measuring Instruments like CRO, Power supply, Multi-meters etc.
      Module II: Semiconductors, Diode and Transistors:
      Difference between Insulators, Semiconductors and Conductors, Mobility and Conductivity,
      Intrinsic and Extrinsic Semiconductors, Fermi Level, Energy band, P-N Junction Diode,
      construction, working, characteristics and diode equation Application of Diode, Rectifier: Half
      Wave, Full Wave and Bridge Rectifier, Zener Diode and its Applications, Varactor Diode,
      Schottky Diode, Regulated Power Supply using Zener Diode and Regulated ICs, LED,
      Photodetector, Construction, Working, Modes and Configuration of BJT, Input and Output
      Characteristics of all Configurations, Comparison of all Configuration & Modes, BJT as a
      Switch and as an Amplifier. JFET Construction, working and characteristics. MOSFET
      Construction, working and Characteristics, Types of MOSFET,.
      ModuleIII: Digital Electronics Fundamentals:
      Difference between analog and digital signals, Boolean algebra, Basic and Universal Gates,
      Symbols, Truth tables, logic expressions, Logic simplification using K- map, Logic ICs, half and
      full adder/subtractor, multiplexers, demultiplexers, flip-flops, shift registers, counters, Block
      diagram of microprocessor/microcontroller and their applications.
      ModuleIV: Electronic Instruments:
      Measurement of Temperature, RTD, Thermistors, LVDT, Strain Gauge, Piezoelectric
      Transducers, Digital Shaft Encoders, Tachometer, Hall effect sensors. Sensors and Transducers
      for physical parameters: temperature, pressure, torque, flow. Speed and Position Sensors.
      Electronic Display Device, Digital Voltmeters, Digital Energy meter, CRO, measurement of
      voltage and frequency, Lissajous Patterns, Plotting B-H curve of a magnetic material, Wave
      Analyzers, Harmonic Distortion Analyzer. Digital Energy Meter. Measurements of R, L and
      C.Digital Multi-meter, True RMS meters, Clamp-on meters, Meggers.Digital Storage
      Oscilloscope.
      ModuleV: Electronic Communication Systems:
      The elements of communication system, IEEE frequency spectrum and Transmission media:
      wired and wireless, need of modulation, AM and FM modulation schemes, Mobile
      communication systems: cellular concept and block diagram of GSM system, Ultrasonic wave &
      its application in distance measurement.

      Text Books
      1. Basic Electronics and Linear Circuits by N. N. Bhargava, D. C. Kulshreshtha and S. C. Gupta,
      TMH Publications.
      2. Op-Amps and Linear Integrated Circuits by Ramakant A. Gayakwad, PHI Publications.
      3. Electronic Devices and Circuits by Godse and Bakshi Technical, Vol-1 Technical Publication
      Pune.
      4. Floyd ,” Electronic Devices” Pearson Education 9th edition, 2012.
      5. R.P. Jain , “Modern Digital Electronics”, Tata Mc Graw Hill, 3rd Edition, 2007.
      6. Frenzel, “Communication Electronics: Principles and Applications”, Tata Mc Graw Hill, 3rd
      Edition, 2001
      Reference Books
      1. Integrated Devices & Circuits by Millman & Halkias, TMH Publications.
      2. Electronics Devices and Circuit Theory by R. Boylestad & L. Nashelsky, Pearson Publication
      3. Electronic Communication System by G. Kennedy, TMH Publications.
      4. Basic Electronics by Sanjeev Kumar & Vandana Sachdeva, Paragaon International Publication