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Write the heat equation and boundary conditions for steady state two-dimensional conduction in the rectangular plate shown.
Determine β1 and β2 for the two circuits.- What conclusion can be made as to the "better" feedback configuration?
For each of the circuits from #1 determine the total energy stored by the capacitors. Which configuration stores the greater amount of energy? Which configuration stores the greater amount of charge?
Improve the controller designed in part by introducing a mechanism for the disturbance compensation at the plant input. Illustrate advantage of the improved controller by applying the fast varying piecewise constant reference input vector and sinu..
If the above electrode is used tomeasure the pH of arterial blood in vivo, and if the subject isbreathing at 0.5Hz, in the steady state how much will the true amplitude of the oscillation in pH be attenuated at the output of the pH electrode
What maximum 60-Hz rms primary voltage is possible without reaching this saturation level? What is the corresponding secondary voltage? How are these values modified if the applied frequency is lowered to 50 Hz?
A 10-kVA 480/120-V conventional transformer is to be used to supply power from a 600-V source to a 480-V load. Consider the transformer to be ideal, and assume that all insulation can handle 600 V.
Find the transfer function and the difference equation for a 2nd -order FIR filter that has unity d.c. gain, but for which the given input x(k) produces zero forced response. (Your filter will have a "notch" at the given frequency, and H(1) =1.)
A certain 15 V dry-cell battery, completely discharged, requires a current of 100 mA for 3 hr to completely recharge. What is the energy storage capacity of the battery, assuming the voltage does not depend on its charge status
Two 20-V batteries are connected in parallel to provide current to a 100-Ω load as shown in Figure 6-72. Determine the current in the load and the current in each battery.
For the network of given figure: - Find the total admittance YT. - Find the voltages V1 and V2. - Find the current I3.
an electric motor operates at 220V rms ,60 Hz, draws 20A rms, and has a power factor of 0.75 lagging. a) what is average power absorbed by the motor b) what value capacitor should be connected in parallel with the motor to give a power factor of 1
Compute the transfer function from input voltage to load inertia speed using the method of determinants.
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