Calculate the mutual impedance, secondary current and the thermal power of the load in the transformer shown below. E I₁ R₁ L₁ M R₂ 1₂2 L₂ R₂ The transformer is supplied with 230 volts at 50 Hz. The primary's inductance L₁=50mH and the secondary's L₂=100m H. The resistances R₁ =392 for the primary and R₂-40 for the secondary. The coupling coefficient kis 0.88. A 1509 resistor acts as a load (R₁). Mutual inductance (as an integer): Secondary's current I₂ (absolute value, to one decimal place): Thermal power of load (as an integer): mH W A
Calculate the mutual impedance, secondary current and the thermal power of the load in the transformer shown below. E I₁ R₁ L₁ M R₂ 1₂2 L₂ R₂ The transformer is supplied with 230 volts at 50 Hz. The primary's inductance L₁=50mH and the secondary's L₂=100m H. The resistances R₁ =392 for the primary and R₂-40 for the secondary. The coupling coefficient kis 0.88. A 1509 resistor acts as a load (R₁). Mutual inductance (as an integer): Secondary's current I₂ (absolute value, to one decimal place): Thermal power of load (as an integer): mH W A
Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
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Transcribed Image Text:Calculate the mutual impedance, secondary current and the thermal power of the load in the transformer shown below.
E
I₁
R₁
L₁
M
R₂ 1₂2
L₂
R₂
The transformer is supplied with 230 volts at 50 Hz. The primary's inductance L₁=50mH and the secondary's L₂=100m H. The
resistances R₁ =392 for the primary and R₂-40 for the secondary. The coupling coefficient kis 0.88. A 1509 resistor acts as a
load (R₁).
Mutual inductance (as an integer):
Secondary's current I₂ (absolute value, to one decimal place):
Thermal power of load (as an integer):
mH
W
A
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