3. Analysis: 1. Measure the voltage VAB' and current Ir2' due to Vs1 only (Replace Vs2 with a short 1. What is your observation regarding VAB and IR2 that was measured directly and the circuit). values obtained after applying the superposition method? 2. Measure the voltage Vae" and current Iez" due to Vs2 only (Replace Vs1with a short circuit). 3. Calculate the total voltage and current by summing the two values together Due to Vs1 only Due to Vszonly Total Van 5.13V Va" 2.76V VAB (Va + Va") 7.89V 2. Can the superposition principle be applied to power Calculations? la' 3.42x10-IAMPS 1.84x10- AMPS 5.26x10- AMPSS Iz" Irz (laz' + Ie2") Table 3 4. For the same Circuit measure VAB and current Ir2 without applying the superposition Theorem Total VAB 7.89V 5.26 Table 4

solve Q3

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3. Analysis: 1. Measure the voltage VAR' and current IR2' due to Vs1 only (Replace Vs2 with a short 1. What is your observation regarding VAB and Ir2 that was measured directly and the circuit). values obtained after applying the superposition method? 2. Measure the voltage VAB" and current Ir2" due to Vs2 only (Replace Vs1with a short circuit). 3. Calculate the total voltage and current by summing the two values together Due to Vsi only Due to Vszonly Total VAB 5.13V VAB" 2.76V VAB (Vaa' + Va") 2. Can the superposition principle be applied to power Calculations? 7.89V In2'| 3.42x10-3AMPS Ir2" 1.84x10-3AMPS Ir2 (Ir2' + Ir2") 5,26x10-3 AMPS Table 3 4. For the same Circuit measure VAB and current Ir2 without applying the superposition Theorem Total VAB 7.89V IR2 5.26 Table 4