For the network in Fig. below, the complex power absorbed by the source on the right is 0 + j1582.5 VA. Find the value of R and the unknown element and its value if f = 60 Hz. (If the element is a capacitor, give its capacitance; if the element is an inductor, give its inductance.)

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Assignment 3_54 C and D.docx
For the network in Fig. below, the complex power
absorbed by the source on the right is 0 + j1582.5 VA.
Find the value of R and the unknown element and its
value if ƒ = 60 Hz. (If the element is a capacitor, give
its capacitance; if the element is an inductor, give its
inductance.)
Unknown
element
R
+) 120-10° V rms
+)150/0° V rms
W
Transcribed Image Text:35% O 4G+ 5:48:24 Assignment 3_54 C and D.docx For the network in Fig. below, the complex power absorbed by the source on the right is 0 + j1582.5 VA. Find the value of R and the unknown element and its value if ƒ = 60 Hz. (If the element is a capacitor, give its capacitance; if the element is an inductor, give its inductance.) Unknown element R +) 120-10° V rms +)150/0° V rms W
For the network in Fig. below, the complex power
absorbed by the source on the right is 0 + j1582.5 VA.
Find the value of R and the unknown element and its
value if ƒ = 60 Hz. (If the element is a capacitor, give
its capacitance; if the element is an inductor, give its
inductance.)
Unknown
element
R
+) 120-10° V rms
+)150/0° V rms
Transcribed Image Text:For the network in Fig. below, the complex power absorbed by the source on the right is 0 + j1582.5 VA. Find the value of R and the unknown element and its value if ƒ = 60 Hz. (If the element is a capacitor, give its capacitance; if the element is an inductor, give its inductance.) Unknown element R +) 120-10° V rms +)150/0° V rms
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