• Q : Cycle of a microprocessor....
    Electrical Engineering :

    Use the diagram shown below to briefly describe the fetch/execute cycle of a microprocessor for the instruction 32 00 BC.

  • Q : Industrial control panel wiring....
    Electrical Engineering :

    The figure shown below is an extract from an industrial control panel wiring diagram.

  • Q : Bell indicator circuit....
    Electrical Engineering :

    Convert this diagram to the industrial ladder diagram format (retain all the devices).

  • Q : Bi-directional opto coupler input interface circuit....
    Electrical Engineering :

    The figure shown below shows a bi-directional opto coupler input interface circuit. When a supply voltage of 20 V is applied to LED carries a current and 2 V is dropped across it.

  • Q : Conversion of numbers....
    Computer Engineering :

    Convert the given binary numbers to 8 bit binary numbers and evaluate by using the 2's complement method. Leave your answers in the binary form.

  • Q : Hydraulic servomechanisms....
    Mechanical Engineering :

    Suppose that you are employed by a company which manufactures hydraulic servomechanisms.

  • Q : Rotary electrical actuator for mechatronic application....
    Mechanical Engineering :

    The internal customer has asked you to list all the factors which you would take into account in choosing a rotary electrical actuator for the mechatronic application. Provide the list for them.

  • Q : Program memory of the plc....
    Mechanical Engineering :

    Draw a ladder diagram to symbolize the software program which must be installed in the program memory of the PLC. Recognize the elements on the rungs by abbreviations.

  • Q : Functional blocks in the sensor....
    Mechanical Engineering :

    Propose an appropriate sensor and justify your recommendation. Sketch a diagram which shows the functional blocks in the sensor and describe each function.

  • Q : Principle of flow sensor....
    Mechanical Engineering :

    Propose a flow sensor, describing its operating principle.

  • Q : Hydraulic pistons-control loop....
    Mechanical Engineering :

    The mass M shown in figure below is to be held in position by two hydraulic pistons (A and B) that exert forces F1 and F2 (correspondingly) to the mass. The total for FT (where FT = F1 + F2) is to

  • Q : Open or closed loop control....
    Mechanical Engineering :

    Illustrate whether this is open or closed loop control, provide reasons to support your answer.

  • Q : Bare thermocouple-single transfer lag system....
    Mechanical Engineering :

    Supposing that the bare thermocouple behaves as a single transfer lag system, find out the mathematical relationship between the temperature (T) and time (t).

  • Q : Mechatronic systems-systems approach and technology....
    Mechanical Engineering :

    In brief explain the meaning of the term mechatronics both in terms of the system’s approach and the technology comprised.

  • Q : Explaining internet addressing and domain naming scheme....
    Computer Engineering :

    Describe in detail the Internet addressing and Domain Naming scheme.

  • Q : Distinguishing html - dhtml and ftp - http....
    Computer Engineering :

    Write down the difference between HTML and DHTML. Write down the difference between FTP and HTTP.

  • Q : Different kinds of risks related with investments....
    Other Engineering :

    What are the different kinds of risks related with the investments? How these risks can be minimised?

  • Q : Risks of nuclear fissions....
    Other Engineering :

    Illustrate out the risks of nuclear fissions. Illustrate out the term semiconductor devices and also describe their usage.

  • Q : Youngs modulus of elasticity....
    Mechanical Engineering :

    Name the materials which have the highest value of Young’s Modulus of Elasticity?

  • Q : Systems thermal energy....
    Mechanical Engineering :

    550J of heat energy is transferred to the system that does 400J of work done. By how much does the energy of system's thermal modify?

  • Q : Maximum possible thermal efficiency of the power plant....
    Mechanical Engineering :

    Determine the maximum possible thermal efficiency of the power plant?

  • Q : Introduction to beam reactions....
    Mechanical Engineering :

    What do you mean by the expression ‘static equilibrium’? Illustrate the three conditions which must be accomplished in order for static equilibrium to exist?

  • Q : General beam bending equation....
    Mechanical Engineering :

    Illustrate the general beam bending equation and state what each symbol in the equation symbolizes and as well the empirical units of measurement for each term.  

  • Q : Cantilever beam-slope and deflection....
    Mechanical Engineering :

    A cantilever beam is 6 m long and consists of a point load of 20 KN at free end. The flexural stiffness is 110 MNm2. Compute the slope and deflection at free end.

  • Q : Basic beam deflection....
    Mechanical Engineering :

    A simply supported beam is 4 m long with UDL of 200N/m. The flexural stiffness is 100 MNm2. Compute the slope at the ends and deflection in the middle.

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