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Please show all steps and equations used, please write neatly, thank you! please answer all parts...
Adams Fourth-Order Predictor-Corrector Python ONLY!! Please translate this pseudocode into Python code, thanks!! Adams Fourth-Order Predictor-Corrector...
Adams Fourth-Order Predictor-Corrector Python ONLY!!
Please translate this pseudocode into Python code, thanks!!
Adams Fourth-Order Predictor-Corrector To approximate the solution of the initial-value problem y' = f(t, y), ast<b, y(a) = a, at (N + 1) equally spaced numbers in the interval [a, b]: INPUT endpoints a, b; integer N; initial condition a. OUTPUT approximation w to y at the (N + 1) values of t. Step 1 Set h = (b − a)/N; to = a; Wo = a;...
please answer all parts Please answer all parts, thank you Problem 3: Linear system for linear BVPs& Consider the linear BVP y(0) = -1 y(1)1 You will define a set of linear equations for yi,...
please answer all parts
Please answer all parts, thank you Problem 3: Linear system for linear BVPs& Consider the linear BVP y(0) = -1 y(1)1 You will define a set of linear equations for yi, i-o, (y.* y(m), i = 0, ,n) and the Net of n(xk, is , n, where yi İs the approximate solution on node i with x-ih,i-0,n and h n is a fixed positive integer. (a) Write the forward difference approximation for y' on the nodes....
Please show all steps. 1. Begin with zero gains and then increase Kp until you observe...
Please show all steps.
1. Begin with zero gains and then increase Kp until you observe sustained oscillations, mark this value Km. 2. Mark the approximate frequency of oscillation wm 3. Then set the gains as follows: KP 0.6Km Note that if you are able to use Root Locus methods, you can formulate these values exactly 1. Use the Ziegler-Nichols method to get an initial tuning of a PID controller that improves the response of a system represented by the...
Do each of the following eight (8) problems. The problems have equal weight. For each problem, in order to receive maximum possible credit, show the steps of the solution clearly,and provide appr...
Do each of the following eight (8) problems. The problems have equal weight. For each problem, in order to receive maximum possible credit, show the steps of the solution clearly,and provide appropriate explanation. Return this exam with your answer sheets . Chapter continunous-time system, with time t in seconds () input fO, and output yo. is specified by the equation y(t) = 1.5cos(2x500 + 0.8ft). a. Is this system instantaneous (memoryless) or dynamic (with memory)? Justify your answer Show that...
Please answer all parts to the problem highlighted in yellow (# 3). Thanks! Please show all...
Please answer all parts to the problem highlighted in yellow (#
3). Thanks! Please show all steps and I will give a positive
rating!
tep size (h/2, say. thereby suggesting their ac of some hidden difficulty i accurate and powerful met chapter Problems 2.4 In Problems 1 through 10, an initial value problem and its ex act solution y (r) are given. Apply Euler's method twice to approximate to this solution on the interval [0. 1], first with step size...
HI, PLEASE ANSWER ALL PARTS AND PLEASE SHOW ALL WORKINGS STEP BY STEP. THANK YOU. a)...
HI, PLEASE ANSWER ALL PARTS AND PLEASE SHOW ALL WORKINGS STEP BY STEP. THANK YOU. a) Show from first principles that the Laplace transform of the function (0)=1, a 20 is f(3) = Make a note of any conditions imposed on the transform variable "s" to ensure the transform exists. (8 Marks) b) Find, using the appropriate theorem, the Laplace transform of a function f(t): f(t) = e-3t.sin(4t) OR Find the inverse Laplace transform of the following: ses f(s) =...
Please answer the following statistics problem and show all your steps thoroughly! Thank you! Question...
Please answer the following statistics problem and show
all your steps thoroughly! Thank you!
Question 5 (10 marks) Suppose that (X, Y) have joint probability function f(x,y) specified by the following table: f(x,y) 0 0.2 0.15 1 Х 2 0.3 0 1 0.1 0.1 3 0.05 0.1 у 2 a) (2 marks) Find the marginal distribution of X and Y (display in a table) b) (2 marks) Find the conditional distribution of Y given X=3. (display in a table)...
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...
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...
Adams Fourth-Order Predictor-Corrector Python ONLY!!
Please translate this pseudocode into Python code, thanks!!
Adams Fourth-Order Predictor-Corrector To approximate the solution of the initial-value problem y' = f(t, y), ast<b, y(a) = a, at (N + 1) equally spaced numbers in the interval [a, b]: INPUT endpoints a, b; integer N; initial condition a. OUTPUT approximation w to y at the (N + 1) values of t. Step 1 Set h = (b − a)/N; to = a; Wo = a;...
please answer all parts
Please answer all parts, thank you Problem 3: Linear system for linear BVPs& Consider the linear BVP y(0) = -1 y(1)1 You will define a set of linear equations for yi, i-o, (y.* y(m), i = 0, ,n) and the Net of n(xk, is , n, where yi İs the approximate solution on node i with x-ih,i-0,n and h n is a fixed positive integer. (a) Write the forward difference approximation for y' on the nodes....
Please show all steps.
1. Begin with zero gains and then increase Kp until you observe sustained oscillations, mark this value Km. 2. Mark the approximate frequency of oscillation wm 3. Then set the gains as follows: KP 0.6Km Note that if you are able to use Root Locus methods, you can formulate these values exactly 1. Use the Ziegler-Nichols method to get an initial tuning of a PID controller that improves the response of a system represented by the...
Do each of the following eight (8) problems. The problems have equal weight. For each problem, in order to receive maximum possible credit, show the steps of the solution clearly,and provide appropriate explanation. Return this exam with your answer sheets . Chapter continunous-time system, with time t in seconds () input fO, and output yo. is specified by the equation y(t) = 1.5cos(2x500 + 0.8ft). a. Is this system instantaneous (memoryless) or dynamic (with memory)? Justify your answer Show that...
Please answer all parts to the problem highlighted in yellow (#
3). Thanks! Please show all steps and I will give a positive
rating!
tep size (h/2, say. thereby suggesting their ac of some hidden difficulty i accurate and powerful met chapter Problems 2.4 In Problems 1 through 10, an initial value problem and its ex act solution y (r) are given. Apply Euler's method twice to approximate to this solution on the interval [0. 1], first with step size...
HI, PLEASE ANSWER ALL PARTS AND PLEASE SHOW ALL WORKINGS STEP BY STEP. THANK YOU. a) Show from first principles that the Laplace transform of the function (0)=1, a 20 is f(3) = Make a note of any conditions imposed on the transform variable "s" to ensure the transform exists. (8 Marks) b) Find, using the appropriate theorem, the Laplace transform of a function f(t): f(t) = e-3t.sin(4t) OR Find the inverse Laplace transform of the following: ses f(s) =...
Please answer the following statistics problem and show
all your steps thoroughly! Thank you!
Question 5 (10 marks) Suppose that (X, Y) have joint probability function f(x,y) specified by the following table: f(x,y) 0 0.2 0.15 1 Х 2 0.3 0 1 0.1 0.1 3 0.05 0.1 у 2 a) (2 marks) Find the marginal distribution of X and Y (display in a table) b) (2 marks) Find the conditional distribution of Y given X=3. (display in a table)...
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...
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