Circuit D2 Circuit D1 R- 10 2 Circuit D3 R= 2.0 2 Circuit D4 R = 6.0 2 R3 R2 = 20 2 Ry- 5.0 2 R2- 2.02 {R2= 2.02 R. V= 20 V Rg 20 2 R- 2.02 102 R2 = 4.02 V- 10 V R, = 20 2 R = 2.02 R3 = 6.0 2 22. Calculate the current through and the voltage across the 10 Q resistor in Circuit D1. (0.25 A, 2.5 V) 23 For Circuit D2 shown abov e calculate the current through each resistor the voltage across each resistor and

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and the
Circuit D1
R- 10 2
Circuit D2
R2 = 20 2
Circuit D3
Circuit D4
R = 6.0 2
Ra
R = 2.0 2
Rg- 5.0 2
R2- 2.0 2
ER2 = 2.02
R4 =
10 2
R.
V= 20 V
R3 = 20
R- 2.02
R2 = 4.0 2
V= 10 V
R = 20 2
R3 = 2.02
R3 = 6.0 2
22. Calculate the current through and the voltage across the 10 Q resistor in Circuit D1. (0.25 A, 2.5 V)
23. For Circuit D2 shown above, calculate the current through each resistor, the voltage across each resistor, and
the total amount of power delivered to the circuit. (1.0 A, 0.5 A, 0.5 A; 20 V, 10 V, 10 V; 30 W)
24. Suppose the resistor arrangement shown in Circuit D3 (yes, it's Circuit C1) is connected to a 12 V battery.
a. Calculate the current through and voltage across each resistor (3 A, 3 A, 6 A, 6 A; 6 V, 6 V, 12 V, 12 V)
b. Calculate the total amount of power delivered to the circuit (180 W).
Transcribed Image Text:and the Circuit D1 R- 10 2 Circuit D2 R2 = 20 2 Circuit D3 Circuit D4 R = 6.0 2 Ra R = 2.0 2 Rg- 5.0 2 R2- 2.0 2 ER2 = 2.02 R4 = 10 2 R. V= 20 V R3 = 20 R- 2.02 R2 = 4.0 2 V= 10 V R = 20 2 R3 = 2.02 R3 = 6.0 2 22. Calculate the current through and the voltage across the 10 Q resistor in Circuit D1. (0.25 A, 2.5 V) 23. For Circuit D2 shown above, calculate the current through each resistor, the voltage across each resistor, and the total amount of power delivered to the circuit. (1.0 A, 0.5 A, 0.5 A; 20 V, 10 V, 10 V; 30 W) 24. Suppose the resistor arrangement shown in Circuit D3 (yes, it's Circuit C1) is connected to a 12 V battery. a. Calculate the current through and voltage across each resistor (3 A, 3 A, 6 A, 6 A; 6 V, 6 V, 12 V, 12 V) b. Calculate the total amount of power delivered to the circuit (180 W).
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