Question

Parts List: Resistor-1 ??, Inductor-10 mH, Capacitor-10 nF, Resistor-10 ? Schematic: V1 5Vpk 10kHz 0° SR1 10? R1 k? C1 10nF SR2 10? SR3 10? Figure 4 1. Using Figure 4 with a 10 V p-p 10 kHz source, R=1 k?, and C=10 nF, determine the theoretical capacitive reactance and circuit impedance, and record the results in Table 3 (the experimental portion of this table will be filled out in step 6). Show your work in Table 1. Using the current divider rule, compute the resistor and capacitor currents and record them in Table 4 and Show your work in Table 2. (Phasors are in RMS but the Oscilloscope gives Vp.p so leave your results in Vp.p). $X_c$ = $Z_{in}$= $\theta$= Table 1-Calculations Current Divider (Phasors are in RMS but the Oscilloscope gives Vp.p so leave your results in Vp.p). $I_{in}$= $I_c$= $I_R$= Table 2-Calculations Theory Experimental % Deviation $X_c$ Z Magnitude $\theta$ Table 3 Theory Mag Theory $\theta$ Exp Mag Exp Delay Exp $\theta$ % Dev Mag % Dev $\theta$ $I_c$ $I_R$ $I_{in}$ Table 4

          Parts List:
Resistor-1 ??, Inductor-10 mH, Capacitor-10 nF, Resistor-10 ?
Schematic:
V1
5Vpk
10kHz
0°
SR1
10?
R1 k?
C1
10nF
SR2 10?
SR3 10?
Figure 4
1. Using Figure 4 with a 10 V p-p 10 kHz source, R=1 k?, and C=10 nF, determine the theoretical
capacitive reactance and circuit impedance, and record the results in Table 3 (the experimental
portion of this table will be filled out in step 6). Show your work in Table 1. Using the current
divider rule, compute the resistor and capacitor currents and record them in Table 4 and Show your
work in Table 2. (Phasors are in RMS but the Oscilloscope gives Vp.p so leave your results in Vp.p).
$X_c$ = 
$Z_{in}$= 
$\theta$= 
Table 1-Calculations
Current Divider
(Phasors are in RMS but the Oscilloscope gives Vp.p so leave your results in Vp.p).
$I_{in}$= 
$I_c$= 
$I_R$= 
Table 2-Calculations
Theory
Experimental
% Deviation
$X_c$
Z Magnitude
$\theta$
Table 3
Theory Mag Theory $\theta$
Exp Mag
Exp Delay Exp $\theta$
% Dev Mag % Dev $\theta$
$I_c$
$I_R$
$I_{in}$
Table 4

$Parts List: Resistor-1 ??, Inductor-10 mH, Capacitor-10 nF, Resistor-10 ? Schematic: V1 5Vpk 10kHz 0° SR1 10? R1 k? C1 10nF SR2 10? SR3 10? Figure 4 1. Using Figure 4 with a 10 V p-p 10 kHz source, R=1 k?, and C=10 nF, determine the theoretical capacitive reactance and circuit impedance, and record the results in Table 3 (the experimental portion of this table will be filled out in step 6). Show your work in Table 1. Using the current divider rule, compute the resistor and capacitor currents and record them in Table 4 and Show your work in Table 2. (Phasors are in RMS but the Oscilloscope gives Vp.p so leave your results in Vp.p). Xc = Zin= θ= Table 1-Calculations Current Divider (Phasors are in RMS but the Oscilloscope gives Vp.p so leave your results in Vp.p). Iin= Ic= IR= Table 2-Calculations Theory Experimental % Deviation Xc Z Magnitude θ Table 3 Theory Mag Theory θ Exp Mag Exp Delay Exp θ % Dev Mag % Dev $\theta$ Ic IR Iin Table 4$

Added by Karen P.

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