please help!!! Instructions: No calculators or other electronic devices. Please submit your answers on this paper....
plot the bode plot for the following
I. (5 pts.) Plot the Bode plot for the following function on the graph provided. Note: you need to label the H(w axes. H)-10 +101s +100 s +10 o2π 3T/4 t/2 π/4 10K 1K 100 10 0.1 0.01
I. (5 pts.) Plot the Bode plot for the following function on the graph provided. Note: you need to label the H(w axes. H)-10 +101s +100 s +10 o2π 3T/4 t/2 π/4 10K 1K 100...
please answer i and ii step by step
(c) An active filter circuit with an op-amp that is ideal in all respects is shown in Figure 1.3. It has the magnitude transfer function Vout R.0 Figure 1.3: Active filter circuit with an ideal op-amp Gi) By choosing suitable frequency points for the component values of R- 10 kQ and C -0.1 HF, draw the magnitude Bode plot for the filter circuit of Figure 1.3. Use the graph paper of Page...
You may prepare your answer in softcopy, print out and submit or use hardcopy approach. Put all your MATLAB codes and Simulink Diagram under the appendix. The system below is to be compensated to achieve a phase margin of 50 degrees. s +3 x(t) 5+2s+ 2s E-KH. yệt) Design gain and phase-lead compensator to achieve the desired PM of 45 degrees. +PART A: Uncompensated system analysis % created by Fakhera 2020 Determine the uncompensated PM and GM s=tf('s'); g= (5+3)/...
Homework 5-Feb 28.docx Please prepare your homework answers either in WORD file or on an engineering paper by handwriting. If you use a handwriting form, please scan the paper neatly and upload a PDF or word version to Canvas and HAND in your original hard copy to me before the class if possible. NOTE: This homework contains a submission of an excel file in addition to your WORD or PDF file Again, no late homework is accepted. No exceptions. Size...
the code in the photo for this I.V.P
dy/dx= x+y. y(0)=1
i need the two in the photo
thank you
New folder Bookmarks G Google dy/dx x+y, y(0)=1 2 h Exact Solution 1.8 Approximate Solution Mesh Points 1.6 -Direction Fied 1.4 1.2 1 0.8 04 0.2 0.3 0.1 0 X CAUsersleskandara\Desktop\New folder emo.m EDITOR PUBLISH VEW Run Section FILE NAVIGATE EDIT Breakpoints Run Run and FL Advance Run and Advance Time BREAKPOINTS RUN 1 - clear all 2 clc 3-...
help me with this. Im done with task 1 and on the way to do task
2. but I don't know how to do it. I attach 2 file function of rksys
and ode45 ( the first is rksys and second is ode 45) . thank for
your help
Consider the spring-mass damper that can be used to model many dynamic systems -- ----- ------- m Applying Newton's Second Law to a free-body diagram of the mass m yields the...
please help me with these two problems. the answers I
have are wrong. thanks for your help!
Paul Sabin organized Sabin Electronics 10 years ago to produce and sell several electronic devices on which he had secured patents. Although the company has been fairly profitable, it is now experiencing a severe cash shortage. For this reason, it is requesting a $690,000 long-term loan from Gulfport State Bank, $195,000 of which will be used to bolster the Cash account and $495,000...
Can you please help me answer Task 2.b?
Please show all work.
fs=44100; no_pts=8192;
t=([0:no_pts-1]')/fs;
y1=sin(2*pi*1000*t);
figure;
plot(t,y1);
xlabel('t (second)')
ylabel('y(t)')
axis([0,.004,-1.2,1.2]) % constrain axis so you can actually see
the wave
sound(y1,fs); % play sound using windows driver.
%%
% Check the frequency domain signal. fr is the frequency vector and
f1 is the magnitude of F{y1}.
fr=([0:no_pts-1]')/no_pts*fs; %in Hz
fr=fr(1:no_pts/2); % single-sided spectrum
f1=abs(fft(y1)); % compute fft
f1=f1(1:no_pts/2)/fs;
%%
% F is the continuous time Fourier. (See derivation...
I
need your help solving this thermodynamics problem please:
Question Completion Status: QUESTION 1 20 points Save Ans The heat-pump system shown is designed to provide water-heating and space-cooling. The system includes a heat exchanger to subcool the R134a refrigerant at the outlet of the water heater while heating the refrigerant at the outlet of the evaporator. Given the following data, determine the enthalpy at each station, 1 through 6, using the R134a property tables (click here). Type your answers...
Can someone help me with question 6 please? I want to know to to
get the initial and the final temperature from the graph.
1 312 Part B: Quantitative Analysis of the Dissolution of Magnesium Sulfate 5 Graph your time/temperature data by hand (as instructed) for all four experimental runs in Part B using the graph paper provided. You will be producing FOUR graphs. Label your axes, include units, title your graphs "Temperature vs Time" and scale your graphs appropriately...