connects The time/div and voltage/div axes of an oscilloscope have been erased. A student a 1 kHz, 5 V P-P square wave calibration pulse to channel-1 of the scope and observes the screen to be as shown in the upper race of the figure. An unknown signal is connected to channel-2 (lower trace) of the scope. the time/div and V/div on both channels are the ame, the amplitude (p - p) and period of the nknown signal are respectively
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- A double beam oscilloscope displays 2 square waveform G and H. The time/cm switch is on 2ms/cm and the volt/cm switch on 4 V/cm. The width of each complete cycle is 5.9 cm for both the waveform. The Peak to Peak height of waveform G and H are 4.2 cm and 4.5 cm respectively. The difference between the two waveforms is 0.6. Determine a) frequency, (r b) phase difference, ( c) RMS value of G waveform d) peak value of H waveform ( a) frequency b) phase difference C) RMS value of G waveform d)peak value of H waveform The instrument which disnlay the numorical unlun of thA double beam oscilloscope displays 2 square waveform G and H. The time/cm switch is on 45 ms/cm and the volt/cm switch on 5V/cm. The width of each complete cycle is 6.8 cm for both the waveform. The Peak to Peak height of waveform G and H are 4.6 cm and 4.9 cm respectively. The difference between the two waveforms is 0.9. Determine a) frequency, b) phase difference, c) peak value of H waveform. d) RMS value of G waveform a) frequency b) phase difference C) Peak value of H waveform d) RMS value of G waveformA double beam oscilloscope displays 2 square waveform G and H. The time/cm switch is on 2ms/cm and the volt/cm switch on 4 V/cm. The width of each complete cycle is 5.3 cm for both the waveform. The Peak to Peak height of waveform G and H are 5.5 cm and 5.9 cm respectively. The difference between the two waveforms is 0.9. Determine a) frequency, b) phase difference, (1Mark) c) RMS value of G waveform (1 a) frequency b) phase difference c) RMS value of G waveform
- A double beam oscilloscope displays 2 square waveform G and H. The time/cm switch is on 50 ms/cm and the volt/cm switch on 6 V/cm. The width of each complete cycle is 6.8 cm for both the waveform. The Peak to Peak height of waveform G and H are 4.5 cm and 5.5 cm respectively. The difference between the two waveforms is 0.2. Determine a) Frequency b) Phase difference c) RMS value of G waveform d) Peak value of H waveformii) A double beam oscilloscope displays 2 square waveform G and H. The time / cm switch is on 2ms / cm and the volt / cm switch on 4 V / cm. The width of each complete cycle is 6.2 cm for both the waveform. The Peak to Peak height of waveform G and Hare 4.1 cm and 5.5 cm respectively. The difference between the two waveforms is 0.5. Determine a) Frequency, b) Phase difference, c) RMS value of G waveformii) A double beam oscilloscope displays 2 square waveform G and H. The time/cm switch is on 2ms/cm and the volt/cm switch on 4 V/cm. The width of each complete cycle is 7.7 cm for both the waveform. The Peak to Peak height of waveform G and H are 4.6 cm and 6.7 cm respectively. The difference between the two waveforms is 0.2. Determine a) Frequency, b) Phase difference, c) RMS value of G waveform. a) frequency b) phase difference c) RMS value of G waveform
- A double beam oscilloscope displays 2 square waveform G and H. The time/cm switch is on 50 ms/cm and the volt/cm switch on 6 V/cm. The width of each complete cycle is 5.3 cm for both the waveform. The Peak to Peak height of waveform G and H are 4.6 cm and 5.9 cm respectively. The difference between the two waveforms is 0.7. Determine a) Frequency b) Phase difference c) RMS value of G waveform d) Peak value of H waveform a) frequencyA full-wave rectified voltage of 18 V peak is connected to a 400micro F filter capacitor. What are the ripple and dc voltages across the capacitor at a load of 100 mA?A double beam oscilloscope displays 2 square waveform G and H. The time/cm switch is on 40 ms/cm and the volt/cm switch on 4 V/cm. The width of each complete cycle is 6.8 cm for both the waveform. The Peak to Peak height of waveform G and H are 5.5 cm and 5.3 cm respectively. The difference between the two waveform is 0.8. Determine a) Frequency, b) Phase difference, c) Peak value value of G waveform. c) RMS value of H waveform.
- A double beam oscilloscope displays 2 square waveform G and H. The time/cm switch is on 50 ms/cm and the volt/cm switch on 6 V/cm. The width of each complete cycle is 7.1 cm for both the waveform. The Peak to Peak height of waveform G and H are 5.6 cm and 5.7 cm respectively. The difference between the two waveforms is 1. Determine a) Frequency b) Phase difference c) RMS value of G waveform d) Peak value of H waveform a) frequency b) phase difference c) RMS value of G waveform d) Peak value of H waveformA double beam oscilloscope displays 2 square waveform G and H. The time/cm switch is on 2ms/cm and the volt/cm switch on 4 V/cm. The width of each complete cycle is 6.8 cm for both the waveform. The Peak to Peak height of waveform G and H are 4.8 cm and 5.3 cm respectively. The difference between the two waveforms is 0.5. Determine a) frequency; b) phase difference, C) RMS value of G waveform d) peak value of H waveform a) frequency b) phase difference C) RMS value of G waveform d)peak value of H waveform (8)A double beam oscilloscope displays 2 square waveform G and H. The time/cm switch is on 2 ms/cm and the volt/cm switch on 4 V/cm. The width of each complete cycle is 5.9 cm for both the waveform. The Peak to Peak height of waveform Gand H are 5.6 cm and 5.9 cm respectively. The difference between the two waveform is 1.1. Determine a) frequency, b) phase difference, C) RMS value of G waveform d) peak value of H waveform a) frequency b) phase difference C) RMS value of G waveform d)peak value of H waveform