Show that complex exponential signal ?(?) = ?^??0? is periodic and that its fundamental period is...

Show that the complex exponential: e^jωt is periodic

Show that the complex exponential: e^jωt is periodic

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.

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 )

Show that the exponential function assumes any complex value other than 0.

Show that the exponential function assumes any complex value other than 0.

3. Define the following complex exponential signal: s(t) = 2.5ej π /3e j200 π t Make...

3. Define the following complex exponential signal: s(t) = 2.5ej π /3e j200 π t Make a plot of si (t) = Ɍ{ js(t)}. Pick a range of values for t that will include exactly three periods of the signal.

5. The sinusoidal signal cos(ω0n + θ0) is periodic in n if the normalized frequency f0...

5. The sinusoidal signal cos(ω0n + θ0) is periodic in n if the normalized frequency f0 ω0 2π is a rational number, that is, f0 = MN , where M and N are integers. (a) Prove the above result. (b) Generate and plot (use the stem function) cos(0.1n−π/5), −20 ≤ n ≤ 20. Is this sequence periodic? Can you conclude periodicity from the plot? (c) Generate and plot (use the stem function) cos(0.1πn − π/5), −10 ≤ n ≤ 20....

1. what is the calculation of the Fourier transform of a signal in both cases: periodic...

1. what is the calculation of the Fourier transform of a signal in both cases: periodic and aperiodic. 2. Find the formula of the Fourier transform of a rectangular signal of amplitude A and of period T. 3. How do elongations of the harmonics of the square wave evolve according to their index?

In Problems 9.61–9.68 find the Fourier series, in complex exponential form, for the given functions. If...

In Problems 9.61–9.68 find the Fourier series, in complex exponential form, for the given functions. If the function is defined on a finite domain make a periodic extension of it (not odd or even). Simplify your answers as much as possible. For problems not marked with a computer icon, you should be able to evaluate the integrals by hand, or with the table in Appendix G. 9.65)  f(x) = x on the domain [0, 5]

Write down the trigonometric and exponential expressions of the following complex a) -2 b) 1-cosΘ +isinΘ...

Write down the trigonometric and exponential expressions of the following complex a) -2 b) 1-cosΘ +isinΘ , (0≤ Θ ≤ π)

a) Let ?(?) = { 1 for 0 ≤ ? ≤ 1 and −1, for 2...

a) Let ?(?) = { 1 for 0 ≤ ? ≤ 1 and −1, for 2 ≤ ? ≤ 3 be a periodic signal with fundamental period 3. Calculate the Fourier Series coefficients of ?(?), ??, by hand. Simplify your result as much as you can. b) By using a 3x1 subplot, plot ?(?) signal in the first row. Take ? between 0 s and 10 s with an increment of 1 ms. Furthermore, calculate and plot the Fourier series...