ER, R2 R3 E UIE ="X '7 L X12 XA L, %3D Xc4- 40 2 C4 Figure 01 culate the following in extra pages which must be attached with the assignment. p, fill in blank of following: 7.43AZ98.2, - The value of Ra= (i) The value of L4 late: The voltage drop (in polar form) across the resistance Ri = ) The voltage drop (in polar form) across the inductance La= t) The voltage drop (in polar form) across the capacitance C3 = ) The voltage drop (in polar form) across the inductance La= O The total current Ir (in polar form) = ) The power factor. ii) Power factor is leading or lagging= +
ER, R2 R3 E UIE ="X '7 L X12 XA L, %3D Xc4- 40 2 C4 Figure 01 culate the following in extra pages which must be attached with the assignment. p, fill in blank of following: 7.43AZ98.2, - The value of Ra= (i) The value of L4 late: The voltage drop (in polar form) across the resistance Ri = ) The voltage drop (in polar form) across the inductance La= t) The voltage drop (in polar form) across the capacitance C3 = ) The voltage drop (in polar form) across the inductance La= O The total current Ir (in polar form) = ) The power factor. ii) Power factor is leading or lagging= +
Power System Analysis and Design (MindTap Course List)
6th Edition
ISBN:9781305632134
Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma
Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma
Chapter6: Power Flows
Section: Chapter Questions
Problem 6.61P
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Subpart 2
Transcribed Image Text:Problem 01: For the following parallel network, the supply voltage E = 200V230° with 250 rad/s as shown in
Figure 01:
R1
R2
R3
R
L, X= 362
X12
L4
L,
Xca - 40 2 C,
Figure 01
Calculate the following in extra pages which must be attached with the assignment.
Also, fill in blank of following:
(d) If I4 = 7.43AZ98.2°,
() The value of R4 =
(i) The value of L4 =
(e) Calculate:
() The voltage drop (in polar form) across the resistance R1 =
(i) The voltage drop (in polar form) across the inductance L2 =
(ii) The voltage drop (in polar form) across the capacitance C3 =
(iv) The voltage drop (in polar form) across the inductance La
() The total current Ir (in polar form) =
(ri) The power factor =.
(rii) Power factor is leading or lagging=.
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