Use MATLAB to generate code for this
4.Given the following functions:
(1) f1 (x, y) = cos (3 x);
(2) f2 (x, y) = cos (5 y);
(3) f3 (x, y) = cos (3 x) cos (5 y);
Please plot 3D plots/images for each of the functions. Please show your steps/ derivations to explain why you obtain those plots/figures.
Use MATLAB to generate code for this 4.Given the following functions: (1) f1 (x, y) = cos...
Write a Matlab code to generate the signal y(t)=10*(cos(2*pi*f1*t)+ cos(2*pi*f2*t)+ cos(2*pi*f3*t)), where f1=500 Hz, f2=750 Hz and f3=1000 Hz. Plot the signal in time domain. Sketch the Fourier transform of the signal with appropriately generating frequency axis. Apply an appropriate filter to y(t) so that signal part with frequency f1 can be extracted. Sketch the Fourier transform of the extracted signal. Apply an appropriate filter to y(t) so that signal part with frequency f2 can be extracted. Sketch the Fourier...
Q: please solve using matlab code withe comment 1. Write the Matlab code to generate: x = cos(w1*t) + cos(w2*t); where, w1=7; w2=23; t = [0:0.005:2] 2. Plot the signal using sub plot a. in time domain b. in frequency domain 3) Sample the signal under different sampling conditions: a. Ts<1/2fm b. Ts=1/2fm c. Ts>1/2fm 4). Multiple plot: the signal sampled under sampling condition and the signal x a. in time domain b. in frequency domain c. Label and Title...
Need MatLab code Exercise: Use MATLAB to generate the sinusoidal waveform: x(t) = 3 cos(1200) Consider the frequency of this sinusoid and use this information to select an appropriate time-step and time array that will allow this signal to be correctly represented and displayed on a new MATLAB figure window (display 4 periods of this wave only). Now set up an appropriate frequency array and use the fft() and fftshift() functions to generate and plot the Fourier Transform (magnitude spectra)...
Compute Laplace transforms of the following functions: (a) f1 = (1 + t) (b) f2 = eat sin(bt) 11, 0<t<1, (c) f3 = -1 1<t<2, | 2, t>2, Find the functions from their Laplace transforms: (a) Lyı] s(s + 1) (s +3) 2+s (b) L[42] = 52 + 2 s +5 (c) L[y3] = Solve the following initial value problems using the Laplace transform. Confirm each solution with a Matlab plot showing the function on the interval 0 <t<5. (a)...
need matlab code Exercise: Use MATLAB to generate a low frequency signal: xy(t) = 3 cos(1400) And a higher frequency signal: xz(t) = 2 cos(10,000st) Now add these two signals together to generate the dual-component signal: y(t) = 3 cos(14007a)+ 2 cos(10,000) Points to be addressed: Again, manually calculate the theoretical magnitude spectra of y(t) and show this in your report (use Microsoft Visio or similar for your diagram). Clearly label all axes! Contrast this working to what you see...
Using MATLAB, duplicate to the two graphs shown in the figure below Requirements 1. Show the MATLAB code used to plot both functions 5cos (nt-ng) (V) 5 e-"X cos (2nft-2nx/A) (V) a. y b- Use the frequency, wavelength and attenuation shown in the figure below when plotting graph (b) 2. 3. 4. Place labels for the x and y axis showing appropriate units Extend the x-axis to 10 cm and use a sampling rate of 0.1 mm Submit the final...
Matlab help 1) Given the functions x1()= tu()-tuft-1) and X2(t)=10e-5,11(), do the following: 1. Plotx,(t) and x2(0) using MATLAB 2. Use MATLAB to find and plot x(0=x:@*.x2(t), where * denotes convolution. 3. Find x(t)=x;()*X2(1) by hand using Laplace transforms. 4. Plot the result of part 3 in MATLAB and compare it to that found in part 2. 2) Given the transfer function shown below, do the following: 1. Find the system's impulse response and plot it using MATLAB 2. Repeat...
(1 point) Calculate the Wronskian for the following set of functions: f1(x) = 0, f2(2) = 2.c +5, f3(2) = 1e" + b W(fi(2), f2(2), f3()) NO_ANSWER 1. Is the above set of functions linearly independent or dependent?
Given four-input Boolean functions, F1 (A,B,C,D) = Σm(4, 5, 10, 11, 12) F2 (A,B,C,D) = Σm(0, 1, 3, 4, 8, 11) F3 (A,B,C,D) = Σm(0, 4, 10, 12, 14) (a) Realize F1, F2 and F3 using a ROM. (b) Realize F1, F2 and F3 using a PLA of minimum size. Show the PLA table and location of switches.
3. Consider the following Matlab code. s-0; clear s.norm for i 1:10000 r-rand(1); % generate a uniform random, number on [0,1] S-S+(3+rr) s.norm(i)-S/i end plot( 1:10000,s.norm) % make a plot of s.norma) versus i (5 pts) What will the plot look like? (10 pts) Will the function/vector s.norm(n) converge to something as n gets large? If so, what? If not, why not? Justify your answer. (5 pts) If we were to run this code multiple times - overlaying the plots...