Question 11
Determine the following information for the Sine Wave Equation
v(t) = 168sin(2π67t)
Vrms in Volts
Question 12
Determine the following information for the Sine Wave Equation
v(t) = 170sin(2π81t)
Frequency in Hz
Question 16 Determine the following information for the Sine Wave Equation y(t)-1 87sin(2M700 Vrms in Volts (V) The unit must be given along with the numerical answer
Question 14 Determine the following information for the Sine Wave Equation v(t)-1 1 2sin(2 π76t) Vpeak in Volts (V) The unit must be given along with the numerical answer
Determine the following about the sine wave ac voltage shown: a. Amplitude and peak-to-peak voltage. b. Period, frequency and angular frequency (o). c. Write the sine wave equation for the ac voltage. d. Calculate the voltage at 2.5us. e. Calculate the voltage at 2ms. volts (v) 7 2 14 0 8 10 12 time (us
The oscilloscope display below is connected to a sine wave of 100 Hz frequency and 4 volt amplitude, 100 us seconds/div, and 2 volts/div. What control(s) on the oscilloscope need to be adjusted to bring this signal into focus so that it displays a sine wave? The oscilloscope display below is connected to a sine wave of 150 Hz frequency , 2 ms seconds/div, and 1 volts/div. What control(s) on the oscilloscope need to be adjusted to bring this signal...
Sine wave measurement: Images 6.9 – 6.12 show a sine wave. Note that Image 6.9 is a close up of the function generator’s frequency display. Using images 6.10 – 6.12, determine the amplitude of the sine wave. Be sure to include proper units: # of vertical divisions VOLT/DIV Amplitude Determine the period and calculate the frequency: # of horizontal divisions TIME/DIV Period Frequency Assuming that the frequency displayed in Image 6.9 is more accurate than the oscilloscope, what is the...
The period of a sine wave traveling through air is 0.009s. A) Determine the frequency in Hz. B) Determine the angular frequency as radians per second. C) Determine the wavelength at 20ºC.
QUESTION 4: a) Volt / div = 2Volt, Time / div = 2msec for the sine wave on the oscilloscope screen below. Accordingly, find the f, w, T, Vrms and Vpp values of this sine wave. Write the time dependent variation of the sine wave as V (t) = Vp sin (w t + q). b) Plot another sine wave with time dependent variation V (t) = 10 sin (100πt + 45 °). V (Volt) 10 8 6 4 2
Sketch the output of the following circuits given the input shown (100 Hz sine wave of 10 Volts peak-to-peak amplitude). +3V IN 2.2k IN914s lk 1QV IN OUT OUT IN914 f 100 Hz -3V
How would you determine if a sine wave and cosine wave at the same frequency are orthogonal and if sine waves at harmonically related frequencies are orthogonal?
Determine the Fourier series expressions for the periodic voltage functions for the full wave rectified sine wave shown in Figure b and the half wave rectified sine wave shown in Figure c. v(t) 0 2T 3T -T