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Algonquin College *

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CST 8216

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Electrical Engineering

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Dec 6, 2023

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docx

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Question 1 (2 points) Saved In Circuit A, what is the measured value of V R1 as displayed on the Multimeter? Question 1 options: 1.667 V 1.7 V 3.333 V 1.67 V Question 2 (2 points) Saved
In Circuit A, what is the measured value of I t as displayed on the Multimeter? Question 2 options: 6.667 mA 3.333 mA 6.667 MA 6.67 mA Question 3 (2 points) Saved In circuit B, what is the measured value of R t as displayed on the Multimeter?
Question 3 options: 6.4 KOhm 6.4 Kohm 6.4 kOhm 64000 Ohm Question 4 (2 points) Saved In Circuit C, what is the measured value of V ac as displayed on the Multimeter? Question 4 options: 15 V 7.5 V 3.75 V 7.5 v Question 5 (2 points) Saved
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In Circuit C, what is the measured value of V d as displayed on the Multimeter? Question 5 options: 3. 8 V 0 V 15 V 3.75 V Question 6 (1 point) Saved Calculate Rt for Circuit One.
Question 6 options: 84.9 Ω 1020 Ω 1200 Ω 1200 V Question 7 (1 point) Saved Calculate It for Circuit One. Question 7 options: 18 mA 20 mA 20 μA 2 A Question 8 (1 point) Saved
Calculate Vb for Circuit One. Question 8 options: 9.24 V 24 V 7.6 V 9.24 A Question 9 (1 point) Saved
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Calculate Vab for Circuit One. Question 9 options: 14.76 V 7.6 V 16.4 V 4 V Question 10 (1 point) Saved
Calculate V R3 for Circuit One. Question 10 options: 0 V 4 V 20 V 3.6 V Question 11 (1 point) Saved
Calculate P t for Circuit One. Question 11 options: 24 V 800 Ω 480 mW 480 μW Question 12 (1 point) Saved
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Calculate Rt for Circuit Two. Question 12 options: 1202 Ω 831 Ω 11.4 kΩ 8.7 kΩ Question 13 (1 point) Saved
Calculate It for Circuit Two. Question 13 options: 15.35 mA 1535 μA 2 mA 0.1535 mA Question 14 (1 point) Saved
Calculate Vc for Circuit Two. Question 14 options: 115.1 V 158.9 V 115.1 kV 175 V Question 15 (1 point) Saved
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Calculate Vbc for Circuit Two. Question 15 options: 115.1 V 41.4 V 41.4 kV 41.4 mV Question 16 (1 point) Saved
Calculate Vac for Circuit Two. Question 16 options: 175 V 18.4 V 156.6 V 59.9 V Question 17 (1 point) Saved
Calculate P t for Circuit Two. Question 17 options: 175 W 2.69 mW 2.69 W 2.69 μW Question 18 (1 point) Saved
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Calculate Rt for Circuit Three, noting that a closed fuse has a resistance of 0 Ω. Question 18 options: 0 Ω 15 kΩ 15 mΩ 10 kΩ Question 19 (1 point) Saved Calculate It for Circuit Three . Question 19 options:
0 A 10 μA 10 mA 1 mA Question 20 (1 point) Saved With S1 in the position shown in Circuit Three, run the simulation. What is the measured value of Vc? Question 20 options: 15 V 10 V 0 V 2 V Question 21 (1 point)
With S1 in the position shown in Circuit Three, run the simulation. What is the measured value of It? Question 21 options: 0 A 1 A 10 mA 1 mA Question 22 (1 point) Saved In the formula It = , if Rt decreased, what is the effect on It? (Just consider the formula, not Circuit Three). Question 22 options: Stays the same Decreases None of the above Increases Question 23 (1 point)
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S1 closing across R2 in Circuit Three would simulate a short - circuit across R2. Calculate Rt for this condition, noting that a closed switch has a resistance of 0 Ω. Question 23 options: 15 kΩ 0 Ω 12 kΩ 3 kΩ Question 24 (1 point) With S1 closed in Circuit Three , the fuse will eventually blow. In that condition, it has infinite resistance and we have an OPEN circuit. Run the simulation until the fuze blows. What is the measured value of Vc when the fuse is blown?
Question 24 options: 0 V 2 V 15 V 10 V Question 25 (1 point) With S1 closed in Circuit Three , the fuse will eventually blow. In that condition, it has infinite resistance and we have an OPEN circuit. Run the simulation. What is the measured value of It when the fuse is blown? Question 25 options: 15 A 1 mA 1.25 mA 0 A Submit Quiz

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