Consider a wave form S(t)=5 sin 78 π t + 12 sin 6.4 π t. The...

The continuous time signal x(t) = 2*sin (2*π*100*t + π/2) + sin (2*π*150*t) + 3*sin (2*π*300*t)...

The continuous time signal x(t) = 2*sin (2*π*100*t + π/2) + sin (2*π*150*t) + 3*sin (2*π*300*t) is sampled at 500 samples per second. Write the mathematical expression x(n) of the sampled discrete time signal. Show your work. What are the discrete time frequencies obtained in x(n)?

A standing wave on a string fixed at both ends is described by y(x,t)=2 sin((π/3)x)cos((π/3)t), where...

A standing wave on a string fixed at both ends is described by y(x,t)=2 sin((π/3)x)cos((π/3)t), where x and y are given in cm and time t is given in s. Answer the following questions a) Find the two simplest travelling waves which form the above standing wave b) Find the amplitude, wave number, frequency, period and speed of each wave(Include unit in the answer) c) When the length of the string is 12 cm, calculate the distance between the nodes...

A signal given by 5 Cos (20*pi*t) + 20 Sin (40*pi*t) is sampled at a rate...

A signal given by 5 Cos (20*pi*t) + 20 Sin (40*pi*t) is sampled at a rate of 50 Hz. Is the Nyquist theorem violated?

The function y(x,t) = 0.3 sin( 2 π t -2 π x + π /4) represents...

The function y(x,t) = 0.3 sin( 2 π t -2 π x + π /4) represents the vertical position of an element of a taut string upon which a transverse wave travels. This function depends on the horizontal position along the string, x, and time, t. y and x are in units of meters and t is in units of seconds. Do not use symbols in any of your answers below. Only use integers or decimals. a. Determine the angular...

A transverse wave on a string is described by y(x, t) = (0.140 mm) sin {(5.747...

A transverse wave on a string is described by y(x, t) = (0.140 mm) sin {(5.747 rad/m)[x − (69.8 m/s)t]}. Find the wavelength of this wave. in m Find the frequency of this wave. in Hz Find the amplitude of this wave in mm Find the speed of motion of the wave in m/s Find the direction of motion of the wave. Express your answer as "+x" or "-x".

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...

Consider the parametric equations below. x = t sin(t),    y = t cos(t),    0 ≤ t ≤ π/3...

Consider the parametric equations below. x = t sin(t),    y = t cos(t),    0 ≤ t ≤ π/3 Set up an integral that represents the area of the surface obtained by rotating the given curve about the x-axis. Use your calculator to find the surface area correct to four decimal places

Consider two sinusoidal sine waves traveling along a string, modeled as y1(x, t) = (0.4 m)sin[(7...

Consider two sinusoidal sine waves traveling along a string, modeled as y1(x, t) = (0.4 m)sin[(7 m−1)x − (5 s−1)t] and y1(x, t) = (0.4 m)sin[(7 m−1)x + (5 s−1)t]. What is the wave function of the resulting wave? (Hint: Use the trig identity sin(u ± v) = sin(u) cos(v) ± cos(u) sin(v). Use the following as necessary: x and t. Assume x and y are measured in meters and t is measured in seconds. Do not include units in...

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')...

A string oscillates according to the equation y´ = (0.158 cm) sin[(π/6.0 cm-1)x] cos[(36.1 π s-1)t]....

A string oscillates according to the equation y´ = (0.158 cm) sin[(π/6.0 cm-1)x] cos[(36.1 π s-1)t]. What are the (a) amplitude and (b) speed of the two waves (identical except for direction of travel) whose superposition gives this oscillation? (c) What is the distance between nodes? (d) What is the transverse speed of a particle of the string at the position x = 1.28 cm when t = 1.47 s? (a) Number Enter your answer for part (a) in accordance...