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2- Find the rms value of signal g(t) shown in Figure 2 over the period (0,5)....
The following signal, f(t), is periodic. Over the interval t = [0,1], f(t) is proportional to an exponential (f(t)~e^at (you need to specify ‘a’ and the DC offset). Find the RMS value of the following signal. Begin by writing an equation for f(t). The following signal, f(t), is periodic. Over the interval t = [0,1],f(t) is proportional to an exponential(t)-e" (you need to specify a and the DC offset). Find the RMS value of the following signal. Begin by writing...
Answer asap b) Suppose the RMS value of the triangular waveform shown is Figure 1 below is known to be XaMS 1/3. Find the RMS value of the waveform y(t) shown in Figure 2. 0 2
2.51 (a) The root mean-square (rms) bandwidth of a low-pass signal g(t) of finite energy is defined by 0O 1/2 rms where G()2 is the energy spectral density of the signal. Correspondingly, the root mean- square (rms) duration of the signal is defined by rms- &(t) dt Using these definitions, show that Assume that Ig(t)| → 0 faster than 1 / Vlt! as lt-oo (b) Consider a Gaussian pulse defined by g(t) exp(-I2) Show that, for this signal, the equality...
KUCILIUIT I 12 POML3) T./4 T./2 -Vm Calculate the rms of the signal above. The signal repeats every Ts time period. The voltage Vm is 38 Your Answer:
For the signal g(t) shown in the following figure: a. Sketch the signals: 4. i) g(20) ii) g(t-12) iii) g(6t) iv) g(3-t) find the energies of all the signals in part (a) b. g(t) 0.5 0 12 15 24
3. For the periodic signal shown below, find the period T and compute the main harmonics. For our purposes, “main” means having at least 2% of the amplitude of the fundamental harmonic. Use MATLAB to plot the signal for two periods. Also plot approximations to the signal using finitely many harmonics.. For the periodic signal shown below, find the period T and compute the main harmonics. For our purposes, "main" means having at least 2% of the amplitude of the...
Calculate the rms value of the waveform shown in the figure below. v(t) (v) 4 3 - 0 i 2 3 4 5 6 t(s)
Determine the RMS value of the waveform shown in the figure below. In the figure, the peak voltage is 1V. v(t) 5 10 15 20 25 30 35 0.577
Determine the RMS value of the waveform shown in the figure below. In the figure, the peak voltage is 7V. v(t) 0 5 10 Сл 20 25 30 35
Determine the RMS value of the waveform shown in the figure below. In the figure, the peak voltage is 7V. v(t) 0 5 10 Сл 20 25 30 35