Data Sheet j0002 L_2 7mH c_047uF R= PART I phasor f=1kHz V = フ60 X =16952 V Vc. Vn =ded3 E = 708 vrmg Xc=34002 -7ム4 VR 6.9EV E = sqrt((V-Vc)? + V)= O = tan" (V-Ve)/Vn) = 71,4° ī= Ins f=10kHz 1,82 Vc=2...

Hello, please look at my lab data and help with the following questions:  This was for an RCL Lab.

1) Is the 1kHZ circuit in part 1 more inductive or capactive.  Explain how the data supports your answer

2) Is the 10kHZ circuit in part 1 more inductive or capactive.  Explain how the data supports your answer

3) Why do we use Vr to compare the phase of E when measuring the phase with the o-scope?

Extracted text: Data Sheet j0002 L_2 7mH c_047uF R= PART I phasor f=1kHz V = フ60 X =16952 V Vc. Vn =ded3 E = 708 vrmg Xc=34002 -7ム4 VR 6.9EV E = sqrt((V-Vc)? + V)= O = tan" (V-Ve)/Vn) = 71,4° ī= Ins f=10kHz 1,82 Vc=2 Va=S. 49 E = 10,49 = 16402 phasor Xc 340RV. VL= JR =54.9 + 56.70 9,55 E = sqrt((V-Vc)" + V)-. d' = tan* ((V-Ve)/Va) = 54.9 4ン15.755 4=36. At T二100う Ve PART II