Lab 6(part 3) - Multisim - [Lab 6(part 3) *] File Edit View Place Simulate Transfer Tools Reports Options Window Help ט D ea 品贈色 + v ☆ *B + ŵy 8 + MISC — -In-Use Li Oscilloscope-XSC1 XFG1 .COM XMM1 R1 ли 1000 L1 10mH XSC1 Ext Trig AAAANNN! Time Channel_A Channel_B Function generator-XFG1 × Reverse 0.000 s 0.000 V 0.000 V Multimeter-XMM1 T2- 0.000 s 0.000 V 0.000 V Waveforms T2-T1 0.000 s 0.000 V 0.000 V Save Ext. triggerO 220.073 mV ~ Signal options Timebase Frequency: 2 kHz Scale: 500 us/Div Duty cycle: 50 % X pos. (Div): 0 Channel A Scale: Y pos. (Div): Channel B Trigger 500 mV/Div Scale: 500 mV/Div Edge: Z A Ext 0 Y pos. (Div): Level: 0 Amplitude: 500 mVp Y/T Add B/A A/B AC 0 DC O AC 0 DC Single Normal Auto None Offset: 0 V Set... Set rise/Fall time + Common 10 O Design1 Lab 6(part 3) * FIG. 3.4 Part 3 Inductive Reactance (a) Construct the network of Fig. 3.4. Record the measured value for R. The internal resistance of the coil will be ignored in this experiment since it is considerably less than X, at the applied frequency. 2 kHz Red Black R w 100 Ω eee s measured Red 10 mH V₁ = 1 V(p-p) Black Oscilloscope (b) Set the voltage V, to 1 V (p-p) and measure the rms value of the voltage VR, with a DMM. Record in the top row of Table 3.4.

I have a problem, I was trying to make sure that V_L is 1V(p-p) but somehow, the oscilloscope does not give me the result that I looking for, and I was wondering if I set the circuit wrong or implent that worng amplitude or something? 

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Lab 6(part 3) - Multisim - [Lab 6(part 3) *] File Edit View Place Simulate Transfer Tools Reports Options Window Help ט D ea 品贈色 + v ☆ *B + ŵy 8 + MISC — -In-Use Li Oscilloscope-XSC1 XFG1 .COM XMM1 R1 ли 1000 L1 10mH XSC1 Ext Trig AAAANNN! Time Channel_A Channel_B Function generator-XFG1 × Reverse 0.000 s 0.000 V 0.000 V Multimeter-XMM1 T2- 0.000 s 0.000 V 0.000 V Waveforms T2-T1 0.000 s 0.000 V 0.000 V Save Ext. triggerO 220.073 mV ~ Signal options Timebase Frequency: 2 kHz Scale: 500 us/Div Duty cycle: 50 % X pos. (Div): 0 Channel A Scale: Y pos. (Div): Channel B Trigger 500 mV/Div Scale: 500 mV/Div Edge: Z A Ext 0 Y pos. (Div): Level: 0 Amplitude: 500 mVp Y/T Add B/A A/B AC 0 DC O AC 0 DC Single Normal Auto None Offset: 0 V Set... Set rise/Fall time + Common 10 O Design1 Lab 6(part 3) *

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FIG. 3.4 Part 3 Inductive Reactance (a) Construct the network of Fig. 3.4. Record the measured value for R. The internal resistance of the coil will be ignored in this experiment since it is considerably less than X, at the applied frequency. 2 kHz Red Black R w 100 Ω eee s measured Red 10 mH V₁ = 1 V(p-p) Black Oscilloscope (b) Set the voltage V, to 1 V (p-p) and measure the rms value of the voltage VR, with a DMM. Record in the top row of Table 3.4.