For each of the signals please indicate it it's even/odd or neither signal. Please explain why...
Please use matlab and attach the figures of the solution 7. Consider the following CT signals, all of them defined for -31 (o)-cos()-sin(4x) ,0)-1.5e 5,0)-)50- For each of these signals indicate whether it is even, odd, or neither, real or complex, periodic or non periodic, type I, type II, or neither. Plot each signal using MATLAB. If a signal is complex, plot magnitude and phase separately. Select a plotting interval and a sampling interval appropriate for the signal in question....
Problem 4 For each of the signals given, determine mathematically whether the signal is even, odd, or neither. (ii) (iv) x[n] x[n] =-n (iii) x[n-(2) = 6 + 2" + .2-n
JU Q1. Sketch the following SIGNALS and determine for each whether it is: Periodic or aperiodic. If periodic, • Even, odd, or neither. If it is neither, specify To. decompose it into even part Ev{x} Energy signal, power signal, or and odd part Od{x} and sketch them. neither. Find the total energy E. and average power PC- 12 -1<n<1 (a) xa n] = lo otherwise (b) xo(t) = xy(t) + x2(t), where x,(t) and x2(t) are the signals shown below:...
Classify the following signals below. For each signal provide a brief discussion about the conclusions presented: - Does the signal have energy, power, or neither? - Is the signal Deterministic or random? t sin(200nt) x[n] = ein A B 60 250 40 200 20 150 0 um w 100 -20 50 -40 1-15 -10 -5 0 5 10 0 -50 5 0 50 C D 1 0.8 0.5 0.6 Lilar lolit 0.4 0 0.2 m 0 -0.5 -0.2 0.4 -0.6...
1.4. Let x[n] be a signal with x[n] = 0 for n < -2 and n > 4. For each signal given below, determine the values of n for which it is guaranteed to be zero. (a) xịn - 3] (b) x[n+ 4] (c) x[-n] (d) x[-n+2] (e) x[-n-2] 1.5. Let x(t) be a signal with x(t) = 0 for t <3. For each signal given below, determine the values of t for which it is guaranteed to be zero....
Please can you solve it using MATLAB. (1) Generate random signals [n] and hn, each of length N, and measure the time it takes to compute the linear convolution of r[n using the linear convolution definition and using the FFT method . Plot a graph of the results for N 104 to 10 in steps of 10. (2) Consider the signal x[n]-cos(0.3n),。£11S 100. Generate a plot of: ·The magnitude and phase of the DTFT of x[n] for 0 2π The...
Could you please provide explanations for each answer? Thank you very much! The Zonama cho-e is a smart device that needs to receive voice signals in small room with an echo (i.e., reverberation clarity The goal is to see if a digital filter can provide needed Given that receiving signals in the presence of an echo is a commonplace and practical task, this question looks at a means of understanding and potentially overcoming the echo with a series of filters....
Please Justify why or why the nyquist rate does change for each and not just give the rate itself. Consider a continuous time signal s(t) sampled at Js and is bandlimited to a frequency less than ..-N2 . It has a Nyquist rate of ω,-2π.-4n/, . Determine and briefly justify the required Nyquist rate (o) of the following variations of this signal. (a) at)-s(t)+s(t-3004) (b) b(t) duo (c) c)s) (d) d(t)-s (t) (cos(ot)) ds(t) dt Consider a continuous time signal...
Please explain all steps. Include degrees of unsaturation, functional groups, and signals used to determine structure. For the compounds listed below: 1. (18 points) Label each set of chemically equivalent protons, using a for the set that will be have the lowest frequency (most upfield) in the 1H NMR spectrum, b for the next a. lowest, and so on. of each set of the equivalent protons. expected for each compound. b. Indicate the splitting pattern (singlet, doublet, triplet...) for expected...