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

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

Consider a wave form S(t)=5 sin 78 π t + 12 sin 6.4 π t. The signal S(t) is sampled at 6.5 Hz. What is the Nyquist frequency of the sampling? Give your answer in Hz to the second nearest decimal place.

A signal described by y(t) = .25*sin(6000*t) + cos(3500*t) was sampled with fs = 1 kHz....

A signal described by y(t) = .25*sin(6000*t) + cos(3500*t) was sampled with fs = 1 kHz. Determined: a) Whether this signal was aliased. Provide the spectral plot (magnitude versus frequency) b) If the signal proved to be aliased, find the right sampling rate c) Provide the spectral plot indicating the right frequencies of the signal

Consider the signal x(t) = 3 cos 2π(30)t + 4 . (a) Plot the spectrum of...

Consider the signal x(t) = 3 cos 2π(30)t + 4 . (a) Plot the spectrum of the signal x(t). Show the spectrum as a function of f in Hz. ?π? For the remainder of this problem, assume that the signal x(t) is sampled to produce the discrete-time signal x[n] at a rate of fs = 50 Hz. b Sketch the spectrum for the sampled signal x[n]. The spectrum should be a function of the normalized frequency variable ωˆ over the...

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)

A signal x(t)=2 sin⁡(62.8 t)*u(t) is sampled at a rate of 5 Hz, and then filtered...

A signal x(t)=2 sin⁡(62.8 t)*u(t) is sampled at a rate of 5 Hz, and then filtered by a low-pass filter with a cutoff frequency of 12 Hz. Determine and sketch the output of the filter.

Question: " Please compute the exact values of sin(pi/5), cos(pi/5) and tan(pi/5) via the construction of...

Question: " Please compute the exact values of sin(pi/5), cos(pi/5) and tan(pi/5) via the construction of the triangles" Hint: To compute sin(pi/5), cos(pi/5), tan(pi/5) you will need to find isosceles triangles.

Given sin u = 5/13, with pi/2 < u < pi , find the exact value...

Given sin u = 5/13, with pi/2 < u < pi , find the exact value of cos 2u and sin 2u using the double angle identities..

Consider a 60 Hz, voltage signal given by v(t) = 17.2 cos (ωt) + 0.15 cos...

Consider a 60 Hz, voltage signal given by v(t) = 17.2 cos (ωt) + 0.15 cos (2ωt) + 2.2 cos (3ωt) + 1.05 cos (7ωt) + 0.75 cos (11ωt) V (a) Use a CAD tool to plot the signal v(t) over three cycles of the fundamental frequency. (b) On a separate CAD plot, plot the fundamental and each of the harmonics overlaid on one plot. Please include a legend in this plot indicating each harmonic. (c) Use a CAD tool...

Differential equations Given that x1(t) = cos t is a solution of (sin t)x′′ − 2(cos...

Differential equations Given that x1(t) = cos t is a solution of (sin t)x′′ − 2(cos t)x′ − (sin t)x = 0, find a second linearly independent solution of this equation.

Solve the given equation 2 cos^2 theta+sin theta =1 cos theta cos 20 + sin theta...

Solve the given equation 2 cos^2 theta+sin theta =1 cos theta cos 20 + sin theta sin 20= 1/2