• Q : Threshold voltage of a mos device....
    Electrical Engineering :

    Define the term threshold voltage of a MOS device and describe its significance.

  • Q : Vibration of electronics module....
    Engineering Mathematics :

    you must determine the natural frequency of the system and use this to produce a plot demonstrating the behavior of the module when resonance occurs.

  • Q : Matrix methods in structural analysis....
    Civil Engineering :

    Analyze the truss shown below using ANSYS. Determine the support reactions, joint displacements, and member axial forces.  Indicate whether each member is in tension or compression.

  • Q : Omega switching network....
    Electrical Engineering :

    Describe the working of 8 × 8 Omega Switching network.

  • Q : Method of paging....
    Electrical Engineering :

    What do you mean by the term paging? Describe how the method of paging can be implemented.

  • Q : Sequencing of micro instructions....
    Electrical Engineering :

    Describe techniques available for sequencing of micro instructions based on the address format.

  • Q : Floating point numbers-ieee standard....
    Electrical Engineering :

    Describe how various instruction are executed in computer with diagram of instruction cycles?

  • Q : Broad side array and end fire array....
    Electrical Engineering :

    What do you mean by the term linear array? Compare Broad side array and End fire array?

  • Q : Antennas and wave propagation....
    Electrical Engineering :

    What are the different merits and demerits of loop antennas?

  • Q : Transfer function for armature....
    Electrical Engineering :

    Derive the Transfer Function for armature controlled d.c. motor, with neat diagram and describe the benefits of armature controlled d.c. motor over field controlled d.c. motor.

  • Q : Control system using open loop and closed loop system....
    Electrical Engineering :

    Describe the temperature control system concepts by using open loop as well as closed loop system.

  • Q : Principle of heterodyne wave analyzer....
    Electrical Engineering :

    Explain the principle of heterodyne wave analyzer with a block diagram.

  • Q : Basics of circuit instrumentation....
    Electrical Engineering :

    Draw the circuit of an electronic dc voltmeter and explain its working principle. What are the draw backs of it and suggest a method to offset these problems.

  • Q : Electronic measurements and instrumentation....
    Electrical Engineering :

    Draw the schematic comprising values for an Ayrton shunt for a meter movement having a full scale deflection of 1 mA and an internal resistance of 500 Ω to cover the current ranges of 10, 50,

  • Q : Independent and dependent sources....
    Electrical Engineering :

    Describe the independent and dependent sources with the help of V-I characteristics.

  • Q : Basics of half wave rectifier....
    Electrical Engineering :

    Draw the circuit of a half-wave-rectifier and find the ripple factor, % regulation, efficiency and PIV.

  • Q : Forward bias and reverse bias....
    Electrical Engineering :

    Describe the operation of silicon p-n junction diode and obtain the forward bias and reverse bias Volt-Ampere characteristics.

  • Q : Fundamentals of semi-conductors....
    Electrical Engineering :

    What do you mean by Fermi level? By indicating the position of Fermi level in intrinsic, n-type and p- type semiconductor, describe its significance in semiconductors?

  • Q : Determining maximum power transfer....
    Electrical Engineering :

    Find out the load resistance to receive maximum power from the source, also find out the maximum power delivered to the load in the circuit as shown below.

  • Q : Solving network circuits....
    Electrical Engineering :

    A pure inductance of 3 mH carries a current of the wave form shown in figure. Find out the voltage across Inductor VL(t) and sketch the same.

  • Q : Applications of bernoullis energy theorem....
    Mechanical Engineering :

    Mention any eight practical applications of Bernoulli`s energy theorem.

  • Q : Newtons law of viscosity....
    Mechanical Engineering :

    State Newton's law of viscosity and give any four examples of its applications.

  • Q : Working principle of bourdon pressure gauge....
    Civil Engineering :

    Describe the working principle of Bourdon pressure gauge with the help of a neat sketch.

  • Q : Fundamentals of fluid mechanics....
    Mechanical Engineering :

    The pressure inside a droplet of water is 0.04N/cm2 greater than the atmospheric pressure. Calculate the diameter of the droplet. Take surface tension (water with air) = 81N/m.

  • Q : Concrete technology....
    Civil Engineering :

    What are pozzolonas? Describe the pozzolonic reactions in concrete? List out the common pozzolona used in concrete?

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