10. Determine the theoretical Nyquist sampling rate for the following signals. (a) x(t) = 10 rect...

Given signal x(t) = sinc(t): 1. Find out the Fourier transform of x(t), find X(f), sketch...

Given signal x(t) = sinc(t): 1. Find out the Fourier transform of x(t), find X(f), sketch them. 2. Find out the Nyquist sampling frequency of x(t). 3. Given sampling rate fs, write down the expression of the Fourier transform of xs(t), Xs(f) in terms of X(f). 4. Let sampling frequency fs = 1Hz. Sketch the sampled signal xs(t) = x(kTs) and the Fourier transform of xs(t), Xs(f). 5. Let sampling frequency fs = 2Hz. Repeat 4. 6. Let sampling frequency...

SUB-DSP given the following function and sample rate: 1) x(t)=sin(200pi't')+2sin(900pi't') and Fs=600HZ find a)the nyquist rate...

SUB-DSP given the following function and sample rate: 1) x(t)=sin(200pi't')+2sin(900pi't') and Fs=600HZ find a)the nyquist rate b)sampled signal,x(n) (taking into account aliasing if present) c)Reconstructed signal,y(t)

1. Determine whether or not each of the following signals is periodic. If the signal is...

1. Determine whether or not each of the following signals is periodic. If the signal is periodic determine the fundamental period. a) x1(t) = 1.5 sin (2000 π t) b) x2(t) = 2 sin (6000 π t) 2. Now determine whether the sum of the two signals above is periodic. If the signal is periodic determine the fundamental period.

Consider a signal x(t) = 20 sinc(10t) is to be represented by samples using ideal (impulses)...

Consider a signal x(t) = 20 sinc(10t) is to be represented by samples using ideal (impulses) sampling. a) Sketch the signal spectral density X(f). b) Find the minimum sampling frequency that allows reconstruction of x(t) from its samples. c) Sketch the sampled spectrum Xs(f) in the range [-55, 55] with sampling frequency fs = 25 Hz.

Q1. A 10 seconds long segment of a continuous time signal is uniformly sampled without aliasing...

Q1. A 10 seconds long segment of a continuous time signal is uniformly sampled without aliasing and generating a finite length sequence containing 3000 samples. Answer the following questions. (a) What is the sampling interval (T)? (b) What is the sampling frequency (fs)? (c) What is the Nyquist rate? (d) What is the highest frequency component that could be present in the continuous time signal? (e) What is the Nyquist frequency? (f) What is the folding frequency? (g) What is...

Q1. A 10 seconds long segment of a continuous time signal is uniformly sampled without aliasing...

Q1. A 10 seconds long segment of a continuous time signal is uniformly sampled without aliasing and generating a finite length sequence containing 2501 samples. Answer the following questions. (a) What is the sampling interval (T)? (b) What is the sampling frequency (fs)? (c) What is the Nyquist rate? (d) What is the highest frequency component that could be present in the continuous time signal? (e) What is the Nyquist frequency? (f) What is the folding frequency? (g) What is...

The signal x(t)=sinc2(100t) is sampled with frequency fs=150sample/sec 1. Determine the spectral representation of the sampled...

The signal x(t)=sinc2(100t) is sampled with frequency fs=150sample/sec 1. Determine the spectral representation of the sampled signal (n=-3 to n=3). 2. Plot the spectral representation of the sampled signal and determine if the signal has aliasing. 3. Determine the minimum frequency of sampling (Nyquist sampling frequency) so that the signal can be reconstructed using an ideal low pass filter. Justify your answer.

Q3: Given the following two voltage signals in time domain a) Determine which signal is leading...

Q3: Given the following two voltage signals in time domain a) Determine which signal is leading and what is the angle difference between them b) Show each signal in frequency domain and what is the frequency of the signals in hertz? V1 (t) = 3 cos (1000 t - 20) V2 (t) = -4 sin (1000 t + 45)

Determine whether or not each of the following signals is periodic. If a signal is periodic...

Determine whether or not each of the following signals is periodic. If a signal is periodic specify its fundamental period. a) ?1 (?) = ??10j? b) ?2(?) = ? (−1+?)? c) ?3[?] = ? ?7?? d) ?4[?] = 3? ?3?(?+ 1 2 ) 5 e) ?5[?] = 3? ?3 5 (?+ 1 2 )

Question : Design the low and high pass filter for the signal, x(t) = 10 sin...

Question : Design the low and high pass filter for the signal, x(t) = 10 sin (10 t) + 1 sin (1000 t) by MATLAB Is below answer right? at ?High pass , 5row shouldn't this change from sin(100*t) ? sin(1000*t) x = 10*sin(10*t) + 1*sin(100*t); ?   x = 10*sin(10*t) + 1*sin(1000*t); ??? ..................................................................................................................................................... ?Low pass clc; rng default Fs=2000; t=linspace(0,1,Fs); x=10*sin(10*t)+sin(1000*t)%given signal n=0.5*randn(size(t));%noise x1=x+n; fc=150; Wn=(2/Fs)*fc; b=fir1(20,Wn,'low',kaiser(21,3)); %fvtool(b,1,’Fs’,Fs) y=filter(b,1,x1); plot(t,x1,t,y) xlim([0 0.1]) xlabel('Time (s) ') ylabel('Amplitude') legend('Original Signal','Filtered Data')...