Build the following circuit (Fig 2: Resistor and Inductor in Series). Connect CH1 and CH2 of the oscilloscope at points as shown. Use the same function generator setting as in Part A. XSC1 Fcn Gen RS L1 Ext Trig 500 15mH R1 V1 + 5102 Fig 2: Resistor and Inductor in Series Calculations: 6. Calculate values for XL and ZT. 7. Calculate I (phasor format) for the circuit. 8. Calculate the voltage (phasor format) drop across the resistor (VR1) and the inductor (V1).

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Build the following circuit (Fig 2: Resistor and Inductor in Series). Connect CH1
and CH2 of the oscilloscope at points as shown. Use the same function generator
setting as in Part A.
XSC1
Fcn Gen
RS
L1
Ext Trid
502
15mH
R1
V1
5102
Fig 2: Resistor and Inductor in Series
Calculations:
6. Calculate values for XL and ZT.
7. Calculate I (phasor format) for the circuit.
8. Calculate the voltage (phasor format) drop across the resistor (VR1) and
the inductor (V1 ).
Transcribed Image Text:Build the following circuit (Fig 2: Resistor and Inductor in Series). Connect CH1 and CH2 of the oscilloscope at points as shown. Use the same function generator setting as in Part A. XSC1 Fcn Gen RS L1 Ext Trid 502 15mH R1 V1 5102 Fig 2: Resistor and Inductor in Series Calculations: 6. Calculate values for XL and ZT. 7. Calculate I (phasor format) for the circuit. 8. Calculate the voltage (phasor format) drop across the resistor (VR1) and the inductor (V1 ).
v(t) = 3V sin (2n * 5000t + 0°)
Transcribed Image Text:v(t) = 3V sin (2n * 5000t + 0°)
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