Already have an account? Get multiple benefits of using own account!
Login in your account..!
Remember me
Don't have an account? Create your account in less than a minutes,
Forgot password? how can I recover my password now!
Enter right registered email to receive password!
The results given in Figure 6.11 were obtained by executing the simulation program given in Appendix A together with the preprocessor and postprocessor given in Appendices B and C, respectively. A pole offset λ of 0.10 was assumed.
An imperfect loop typically slips more cycles than a perfect loop and therefore takes longer to achieve phase lock.
Examine the impact of the pole offset by executing the program assuming a perfect loop (λ = 0).
Except for the pole offset use the same parameters as given in (6.40). How many cycles are slipped by the perfect loop? By how much is the lock time reduced?
A point charge q resides in a 90 degree grounded conducting corner at the same perpendicular distance d from each conducting half-plane. Find the force on the charge caused by the induced surface charges.
In the presentation, the presenter, Mr. Rob Tucker discussed three types of disturbance mitigation responses or measures. List the three mitigation types and give a short definition of each of the mitigation type.
The time to failure of fluorescent lights in a large office building is exponentially distributed with a failure rate of 0.03125 hours. How many spare tubes must the building custodian maintain to have at least a 0.95 probability of replacing all..
A 50 ohmlossless air transmission line is terminated in a load impedance ZL = 12.5 + j20 ohm. Find the following using a Smith Chart: the load admittance YL. the closest distance to the load plane where the normalized admittance on the line is 1 + j..
Document your test plan in a table. For each test case, document the expected program behavior and the actual program behavior. If the program does not behave according to your prediction, write a brief explanation of what the program did wrong.
Given: A permanent magnet DC motor with kv = 0.7 v-s is tested under the following two conditions: Test 1: Apply 120 V; motor unloaded, Ia=2A and w=160 rad/s Test 2: Apply 120 V, increase load torque until Ia=6A and w=137.1 rad/s
What is the magnetic force on a square loop of current I placed in a uniformed magnetic field B with the plane of the loop perpendicular to the magnetic field. Explain
For the open-loop system \(G(s)=y(s)/u(s)=1/[s^{2}(s^{2}+400)]\) design the controller and estimator so that the closed-loop unit step response to a command input has a rise time tr
Design a 3 th order high - pass Butterworth filter with a High Frequency gain of 20 DB and a cutoff frequency of 20 rad/s. 2) Using MATLAB, plot the frequency respon se of this filter, and the location of the filter poles.
Consider a four-pole feedback system with a loop gain. - Determine the value of β that produces a phase margin of 45 degrees.
Ferrites with a Laplace method. Similarly, derive an FDTD method for ferrites, using the Laplace transform derivation described in this chapter for the magnetized plasma. Assume α = 0 for simplicity.
What should be the guarantee time for these printers if the manufacturer wants only 5% to fail within the guarantee period?
Get guaranteed satisfaction & time on delivery in every assignment order you paid with us! We ensure premium quality solution document along with free turntin report!
whatsapp: +1-415-670-9521
Phone: +1-415-670-9521
Email: [email protected]
All rights reserved! Copyrights ©2019-2020 ExpertsMind IT Educational Pvt Ltd