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Question 1

See Figure 6.1. Use the current divider rule to compute I2, given IT = 100 mA.

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See Figure 6.1. Use the current divider rule to compute I2, given IT = 100 mA. Answer Choices: 21.1 mA 53.7 mA 26.3 mA 100 mA

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Question 2

See Figure 6.3. What is the current drawn from the battery?

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See Figure 6.3. What is the current drawn from the battery? Answer Choices: 1.0 A 0.4 A 0.6 A 0.8 A

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Question 3

See Figure 6.4. Which two resistors are in parallel?

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See Figure 6.4. Which two resistors are in parallel? Answer Choices: 10 Ω and 56 Ω 10 Ω and 33 Ω 10 Ω and 47 Ω None are in parallel.

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Question 4

See Figure 6.5. What is the new voltage VL if the 6 Ω resistor is open?

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See Figure 6.5. What is the new voltage VL if the 6 Ω resistor is open? Answer Choices 10 V 8 V 4 V 6 V

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Question 5

See Figure 5.3. The total current I is

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Answer Choices -2.5 mA. +500 μA. -500 μA. +2.5 mA.

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Question 6

See Figure 5.3. Which one of the following KVL equations describes this circuit?

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See Figure 5.3. Which one of the following KVL equations describes this circuit? Answer Choices: -10 V - V1 - V2 + 15 V - V3 = 0 +10 V + V1 + V2 - 15 V + V3 = 0 +10 V - ...

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Question 7

See Figure 5.2. How much power is dissipated by R5?

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See Figure 5.2. How much power is dissipated by R5? Answer Choices 200 mW 2 W 400 mW 1 W

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Question 8

See Figure 5.1. The total power dissipated by the 7 kΩ resistor is

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See Figure 5.1. The total power dissipated by the 7 kΩ resistor is Answer Choices 10 mW. 2 mW. 1 mW. 7 mW.

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Question 9

What is the total resistance of the circuit shown in Figure 5.1, assuming that each resistor is 20% above its nominal value?

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What is the total resistance of the circuit shown in Figure 5.1, assuming that each resistor is 20% above its nominal value?

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Question 10

See Figure 5.4. Use Kirchhoffʹs voltage law to compute Vab, Vac, Vbc, and Vde.

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See Figure 5.4. Use Kirchhoffʹs voltage law to compute Vab, Vac, Vbc, and Vde.

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