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 °).
QUESTION 4: a) Volt / div = 2Volt, Time / div = 2msec for the sine...
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...
#6 table 2 8 LABORATORY REPORT 1C. TIME/DIV-S IC VOLTS/DIV-SV A VOLTS/DIV V ov o v 0 s 2A. TIME/DIN-S2B. TIME/DIV 2C TIME/DIV-mS 2C. VOLTS/DIV o V 0 s 60033 0 s 3A. TIME/DIV-m 3A, VOLTS/DIV=-, 3B. TIME/DIV-1m 3B. VOLTS/DIV o v 0 s 0 s 388 Physics Laboratory Mamual Loyd A. TIME/DIV- ms 4A. VOLTS/DIV-LV o v ov 0 s 0 s 0 s Data Table 1 X Data Table 2 Voltmeter (V Voltmeter V 1.00 2.00 3.00 4.00...
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...
Please answer in detail A) Assume that x(t) -2 sin (4 pi t)-2 input is applied to a high pass filter with the cut off frequency of 2 Hz. Explain in detail with appropriate justification and accurately sketch the output voltages that appears on the oscilloscope screen if 1 volt/div and 0.25 sec. time/div are set. + B) Assume that x(t) 4 cos (2 pi t)+4 input is applied to a low pass filter with the cut off frequency of...
Draw the correct waveforms in the aranhs below for questions 10: 8. With the oscilloscope AC coupled, draw the signal display you would expect to see on the screen of the oscilloscope on the graph provided below. SWITCH SETTINGS TIME/DIV 50 us VOLTS/DIV → 2 V SIGNAL PARAMETERS TH 12 Vdc 9. With the oscilloscope DC coupled, draw the signal display you would expect to see on the screen of the oscilloscope on the graph provided below. SWITCH SETTINGS TIME/DIV...
hy I need answers of these questions according to data sheet. thank you DATA SHEET PARTI TIME/DIV ims VOLTS/DIV=_IV PEAK VOLTAGE V_47 toms TIME/DIV=_ms VOLTS/DIV-5V PEAK VOLTAGE V_42 PERIOD TO_loms PERIOD T- PART 1 SINEWAVE Vrms (VOLTS) VP (VOLTS) (Voltmeter) (oscilloscope) 7:07 10 3.57 5 2: 78 4 2.10 3 2 Slope=0.707V TIME/DIV=_ams VOLTS/DIVE PEAK VOLTAGE V=_41_ PERIOD T=_toms PART III SQUAREWAVE VAMS (VOLTS) VP (VOLTS) (Voltmeter) (oscilloscope) 10.9 do 542 S 4.4 4 3:3 고 2-2 Slope 0-92-1v PART...
QUESTION 1 An AC voltage has a peak value of 2 V. What is the RMS value? (3 decimal places) QUESTION 2 A 2 Vp-p voltage is applied to a circuit that has three 1 kohm resistors in series. What is the total current (It) in rms milli amps QUESTION 3 A resistive circuit has three 100 ohm resistors in parallel. A 120 Vrms voltage is applied to the parallel circuit. What is the peak current through one resistor in...
(a) Determine the period, amplitude, and frequency of a signal given by, v(t) (120nt). Plot this signal both in the time-domain and frequency domain. (b) For the following square wave v(t), determine if it is a periodic signal, and if yes, what 10 V sin 4. [61 are its amplitude, period T and fundamental frequency f? Why do we need to convert this signal into sine/cosine wave for transmission? 2 o-oims (c) () According to Fourier Theorem, the above signal...
1. Use Eq. 1 to derive an expression for the expected output waveform from an ideal differentiator circuit having input waveform Vin=lsin[(21)1000t] V. Let RF1.5 k12 and C=10 nF. 2. Use Eq. 3 to find the peak-peak output amplitude of the ideal differentiator of question 1 for a 2 Vpp sine wave input at 1 kHz and 2 kHz. Put the results in the Calculated Output column of Table 1 in Appendix A. 3. Use the indefinite integral version of...
Circuit 3-RL High Pass Filter Circuit Choose R=1.5 k Ω, and L=27 mH . Input from AWG is a Sine Wave, 4 V, 500 Hz, Base 2 ms/div, Click on Network Analyzer. Choose start frequency 100 Hz and Stop frequency 100 kHz and steps 100 .Bode scale for Magnitude: Top 0 dB, Range 10 dBBode scale for Phase: Top 90°, Range 75%. (You can always play with the scale. Make sure the Phase and Magnitudo are seen well on the screen)Measure...