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The waveform shown is displayed on an oscilloscope with a timcbase setting of 0.1 ms per...
Question 4) (a) In an experiment to measure the capacitance of a capacitor an oscilloscope was...
Question 4) (a) In an experiment to measure the capacitance of a capacitor an oscilloscope was connected across the capacitor. The diagram below shows an AC waveform that is displayed on the oscilloscope's screen. The oscilloscope settings are: Y-axis is the voltage 4.0 V per division, X- axis is the time base 1.0 ms per division. For the waveform shown, (0) What is the peak voltage across the capacitor? (1) (ii) Calculate the r.m.s voltage across the capacitor. (2) (iii)...
Electric circuits 6. Determine the frequency of this waveform, as displayed by the oscilloscope with vertical...
Electric circuits
6. Determine the frequency of this waveform, as displayed by the oscilloscope with vertical sensitivity of 2V per division and time base of 0.5 milliseconds per division. We were unable to transcribe this image
If the volts/division is set at 0.5, the largest signal that can fit on an oscilloscope...
If the volts/division is set at 0.5, the largest signal that can fit on an oscilloscope display screen (assuming an 8 horizontal x 10 vertical division screen) is: a. 62.5 millivolts peak-to-peak. b. 8 volts peak-to-peak. c. 5 volts peak-to-peak. d. 0.5 volts peak-to-peak. If the seconds/division is set at 0.1 ms, the amount of time represented by the width of the screen (assuming an 8 horizontal x 10 vertical division screen) is: a. 0.1 ms b. 0.8 ms c....
*USE Multisim( Provide Pictures of work on Multisim for each step) and Fill the Tables Below...
*USE Multisim( Provide Pictures of work on Multisim for each
step) and Fill the Tables Below
PROCEDURE: Review the front panel controls in each of the major groups. Then turn on the oscilloscope, select Chl, set the SEC/DIV to 0.1 ms/div, select AUTO triggering, and obtain a line across the face of the CRT. Although many of the measurements described in this experiment are automated in newer scopes, it is useful to learn to make these measurements manually. Turn on...
Analog Oscilloscope Setup: 1. Turn on the power to the oscilloscope. 2. Connect the function gene...
Analog Oscilloscope Setup: 1. Turn on the power to the oscilloscope. 2. Connect the function generator to the Channel 1 input on the oscilloscope 3. In the Vertical Control Group, set the Channel 1 AC/GND/DC switch to AC. 4. Set the Volts-per-Division knob 5. Intensity knob: adjust the signal intensity and focus to a comfortable level by using the intensity and focus knobs, respectively Set the seconds-per-division knob 6. Assignment Procedures: 1. Using the settings completed above, answer the following...
Problems 1 through 8 refer to the sinusoidal waveforms on the right, which are displayed on...
Problems 1 through 8 refer to the sinusoidal waveforms on the right, which are displayed on an oscilloscope having the following settings: Channel 1 Vertical Axis: 1 V/Division Channel 2 Vertical Axis: 50 mV/Division Horizontal Axis: 1 ms/Division The zero-volt level is at the center of the screen for both channels. Consider the left edge of the screen to be the t=0 axis. Consider the waveform displayed on Channel 1 as the output voltage of a function generator. In ze...
I QUESTION a) An oscilloscope is set to be in XY mode and a Lissajous pattern as shown in Figure ...
i QUESTION a) An oscilloscope is set to be in XY mode and a Lissajous pattern as shown in Figure Q3 is obtained when sinusoidal voltage V1 is connected to X input (Channel 1) and another sinusoidal V2 is connected to Y input (Channel 2). Both X and Y inputs are set to 1V/cm. The frequencies of both V1 and V2 are 2 kHz The oscilloscope is now switched to sweep mode in order to obtain the sinusoidal waveforms of...
I QUESTION a) An oscilloscope is set to be in XY mode and a Lissajous pattern as shown in Figure ...
i QUESTION a) An oscilloscope is set to be in XY mode and a Lissajous pattern as shown in Figure Q3 is obtained when sinusoidal voltage V1 is connected to X input (Channel 1) and another sinusoidal V2 is connected to Y input (Channel 2). Both X and Y inputs are set to 1V/cm. The frequencies of both V1 and V2 are 2 kHz The oscilloscope is now switched to sweep mode in order to obtain the sinusoidal waveforms of...
using NI multisim please Part 1: 1. Simulate the circuit as shown below: 2- Set the...
using NI multisim please
Part 1: 1. Simulate the circuit as shown below: 2- Set the sensitivity of the Yl channel of the scope to 2 Vicm 3. Set the Y2 sensitivity to 50 mVlcm. 4. Set the time base to 500 ms or to the slowest rate available on your instrument 5. Sct power supply to 10 V then switch on the power supply switch 6- Switch the toggle switch of point (A) to the left and observe the...
Explain please 2. Assume that the waveform shown at 100 90 the left represents the natural response of particular filter...
Explain please
2. Assume that the waveform shown at 100 90 the left represents the natural response of particular filter. For this waveform a) Determine the expression for the voltage, v(t). Your answer should have 80 a 70 60 50 40 30 the form v(t)Ve sin (wt). -at 20 10 b) Determine the resonant frequency, a. 0- -10 c) Plot the pole-zero diagram d) Determine the Q of this system. Does your answer agree with the length of the transient...
Question 4) (a) In an experiment to measure the capacitance of a capacitor an oscilloscope was connected across the capacitor. The diagram below shows an AC waveform that is displayed on the oscilloscope's screen. The oscilloscope settings are: Y-axis is the voltage 4.0 V per division, X- axis is the time base 1.0 ms per division. For the waveform shown, (0) What is the peak voltage across the capacitor? (1) (ii) Calculate the r.m.s voltage across the capacitor. (2) (iii)...
Electric circuits
6. Determine the frequency of this waveform, as displayed by the oscilloscope with vertical sensitivity of 2V per division and time base of 0.5 milliseconds per division. We were unable to transcribe this image
*USE Multisim( Provide Pictures of work on Multisim for each
step) and Fill the Tables Below
PROCEDURE: Review the front panel controls in each of the major groups. Then turn on the oscilloscope, select Chl, set the SEC/DIV to 0.1 ms/div, select AUTO triggering, and obtain a line across the face of the CRT. Although many of the measurements described in this experiment are automated in newer scopes, it is useful to learn to make these measurements manually. Turn on...
Analog Oscilloscope Setup: 1. Turn on the power to the oscilloscope. 2. Connect the function generator to the Channel 1 input on the oscilloscope 3. In the Vertical Control Group, set the Channel 1 AC/GND/DC switch to AC. 4. Set the Volts-per-Division knob 5. Intensity knob: adjust the signal intensity and focus to a comfortable level by using the intensity and focus knobs, respectively Set the seconds-per-division knob 6. Assignment Procedures: 1. Using the settings completed above, answer the following...
Problems 1 through 8 refer to the sinusoidal waveforms on the right, which are displayed on an oscilloscope having the following settings: Channel 1 Vertical Axis: 1 V/Division Channel 2 Vertical Axis: 50 mV/Division Horizontal Axis: 1 ms/Division The zero-volt level is at the center of the screen for both channels. Consider the left edge of the screen to be the t=0 axis. Consider the waveform displayed on Channel 1 as the output voltage of a function generator. In ze...
i QUESTION a) An oscilloscope is set to be in XY mode and a Lissajous pattern as shown in Figure Q3 is obtained when sinusoidal voltage V1 is connected to X input (Channel 1) and another sinusoidal V2 is connected to Y input (Channel 2). Both X and Y inputs are set to 1V/cm. The frequencies of both V1 and V2 are 2 kHz The oscilloscope is now switched to sweep mode in order to obtain the sinusoidal waveforms of...
i QUESTION a) An oscilloscope is set to be in XY mode and a Lissajous pattern as shown in Figure Q3 is obtained when sinusoidal voltage V1 is connected to X input (Channel 1) and another sinusoidal V2 is connected to Y input (Channel 2). Both X and Y inputs are set to 1V/cm. The frequencies of both V1 and V2 are 2 kHz The oscilloscope is now switched to sweep mode in order to obtain the sinusoidal waveforms of...
using NI multisim please
Part 1: 1. Simulate the circuit as shown below: 2- Set the sensitivity of the Yl channel of the scope to 2 Vicm 3. Set the Y2 sensitivity to 50 mVlcm. 4. Set the time base to 500 ms or to the slowest rate available on your instrument 5. Sct power supply to 10 V then switch on the power supply switch 6- Switch the toggle switch of point (A) to the left and observe the...
Explain please
2. Assume that the waveform shown at 100 90 the left represents the natural response of particular filter. For this waveform a) Determine the expression for the voltage, v(t). Your answer should have 80 a 70 60 50 40 30 the form v(t)Ve sin (wt). -at 20 10 b) Determine the resonant frequency, a. 0- -10 c) Plot the pole-zero diagram d) Determine the Q of this system. Does your answer agree with the length of the transient...
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