- 1 I Determine The Series Equivalent Inductance Lx And Resistance R Of The Network Shown In Figure 1 Which Causes 1 (39.59 KiB) Viewed 37 times
1. i. Determine the series equivalent inductance (Lx) and resistance (R) of the network shown in figure 1, which causes
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1. i. Determine the series equivalent inductance (Lx) and resistance (R) of the network shown in figure 1, which causes
1. i. Determine the series equivalent inductance (Lx) and resistance (R) of the network shown in figure 1, which causes a Hay Bridge angle opposite (thus nulling the following bridge arms). (=3000 rad/s, R₂ =9 k2, R₁ = 1.8 k2, C₁=0.9 µF, R₁ = 0.9 km2 A.C. supply 1 Hz Figure 1 (5 Marks) ii. The Schering Bridge is shown in following figure 2 has following constants R₁ = 1.5k km2, C₁ = 0.4 µF, R₂ = 3k2 and C₁ = 0.4 µF at frequency 1 kHz. Calculate the unknown resistance (R) and capacitance (Cx) of the bridge circuit and dissipation factor. A.C. supply 1 Hz (10 Marks) (Total 15 Marks) ww Detector www ww0000 www Figure 2 Detector