Explanation Formula used: Consider the general expression to convert impedances from Y to Δ . Z a = Z 1 Z 2 + Z 2 Z 3 + Z 3 Z 1 Z 1 (1) Z b = Z 1 Z 2 + Z 2 Z 3 + Z 3 Z 1 Z 2 (2) Z c = Z 1 Z 2 + Z 2 Z 3 + Z 3 Z 1 Z 3 (3) Calculation: Consider Z 1 = j 40 Ω , Z 2 = 50 Ω and Z 3 = 40 Ω Substitute j 40 Ω for Z 1 , 50 Ω for Z 2 and 40 Ω for Z 3 in equation (1) as follows. Z a = ( j 40 Ω ) ( 50 Ω ) + ( 50 Ω ) ( 40 Ω ) + ( 40 Ω ) ( j 40 Ω ) j 40 Ω = j 2000 + 2000 + j 1600 j 40 Ω = 2000 + j 3600 j 40 Ω = 90 − j 50 Ω Substitute j 40 Ω for Z 1 , 50 Ω for Z 2 and 40 Ω for Z 3 in equation (2) as follows. Z b = ( j 40 Ω ) ( 50 Ω ) + ( 50 Ω ) ( 40 Ω ) + ( 40 Ω ) ( j 40 Ω ) 50 Ω = j 2000 + 2000 + j 1600 50 = 2000 + j 3600 50 = 40 + j 72 Ω Substitute j 40 Ω for Z 1 , 50 Ω for Z 2 and 40 Ω for Z 3 in equation (3) as follows. Z c = ( j 40 Ω ) ( 50 Ω ) + ( 50 Ω ) ( 40 Ω ) + ( 40 Ω ) ( j 40 Ω ) 40 Ω = j 2000 + 2000 + j 1600 40 = 2000 + j 3600 40 = 50 + j 90 Ω Simplified circuit is shown in Figure 1

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ISBN: 9780134746968

Author: James W. Nilsson, Susan Riedel

Publisher: PEARSON

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Chapter 9.6, Problem 9AP

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Electric Circuits. (11th Edition)

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