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Deck 2: Series Circuits, Ohms Law, Energy, and Power

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Question
If 6.8 k?, 1.2 k? and 5.6 k? resistors are wired in series, the total resistance is 13.6 k?.
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Question
If 4.7 k?, 2.2 k? and 1.2 k? resistors are wired in series, the total resistance is 8.7 k?.
Question
<strong> Figure 4-1 -Calculate V<sub>R3</sub> in Figure 4-1 if V<sub>T</sub> = 50 V, V<sub>R1</sub> = 19.7 V and V<sub>R2</sub> = 2.7 V.</strong> A) 27.6 V B) 22.4 V C) 30.3 V D) 47.3 V <div style=padding-top: 35px> Figure 4-1

-Calculate VR3 in Figure 4-1 if VT = 50 V, VR1 = 19.7 V and VR2 = 2.7 V.

A) 27.6 V
B) 22.4 V
C) 30.3 V
D) 47.3 V
Question
<strong> Figure 4-1 -How much voltage is dropped across R<sub>2</sub> and R<sub>3</sub> in Figure 4-1 if R<sub>1</sub> = 4.7 k?, V<sub>R1</sub> = 10 V, R<sub>2</sub> = 4.7 k? and R<sub>3</sub> = 4.7 k??</strong> A) V<sub>R2</sub> = 10 V, V<sub>R3</sub> = 4.7 V B) V<sub>R2</sub> = 10 V, V<sub>R3</sub> = 10 V C) V<sub>R2</sub> = 14.7 V, V<sub>R3</sub> = 14.7 V D) V<sub>R2</sub> = 4.7 V, V<sub>R3</sub> = 10 V <div style=padding-top: 35px> Figure 4-1

-How much voltage is dropped across R2 and R3 in Figure 4-1 if R1 = 4.7 k?, VR1 = 10 V, R2 = 4.7 k? and R3 = 4.7 k??

A) VR2 = 10 V, VR3 = 4.7 V
B) VR2 = 10 V, VR3 = 10 V
C) VR2 = 14.7 V, VR3 = 14.7 V
D) VR2 = 4.7 V, VR3 = 10 V
Question
In a series circuit, total power PT is calculated as:

A) P1 + P2 + P3 + etc.
B) P1 ÷ P2 ÷ P3 ÷ etc.
C) 1/P1 + 1/P2 + 1/P3 + etc.
D) P1 × P2 × P3 × etc.
Question
If a circuit's resistance increases, its current decreases.
Question
A 250 ?A current flowing through a 4.7 k? resistor produces a ________ voltage drop.

A) 1.18 V
B) 1.18 mV
C) 53.2 V
D) 18.8 V
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Deck 2: Series Circuits, Ohms Law, Energy, and Power
1
If 6.8 k?, 1.2 k? and 5.6 k? resistors are wired in series, the total resistance is 13.6 k?.
True
2
If 4.7 k?, 2.2 k? and 1.2 k? resistors are wired in series, the total resistance is 8.7 k?.
False
3
<strong> Figure 4-1 -Calculate V<sub>R3</sub> in Figure 4-1 if V<sub>T</sub> = 50 V, V<sub>R1</sub> = 19.7 V and V<sub>R2</sub> = 2.7 V.</strong> A) 27.6 V B) 22.4 V C) 30.3 V D) 47.3 V Figure 4-1

-Calculate VR3 in Figure 4-1 if VT = 50 V, VR1 = 19.7 V and VR2 = 2.7 V.

A) 27.6 V
B) 22.4 V
C) 30.3 V
D) 47.3 V
27.6 V
4
<strong> Figure 4-1 -How much voltage is dropped across R<sub>2</sub> and R<sub>3</sub> in Figure 4-1 if R<sub>1</sub> = 4.7 k?, V<sub>R1</sub> = 10 V, R<sub>2</sub> = 4.7 k? and R<sub>3</sub> = 4.7 k??</strong> A) V<sub>R2</sub> = 10 V, V<sub>R3</sub> = 4.7 V B) V<sub>R2</sub> = 10 V, V<sub>R3</sub> = 10 V C) V<sub>R2</sub> = 14.7 V, V<sub>R3</sub> = 14.7 V D) V<sub>R2</sub> = 4.7 V, V<sub>R3</sub> = 10 V Figure 4-1

-How much voltage is dropped across R2 and R3 in Figure 4-1 if R1 = 4.7 k?, VR1 = 10 V, R2 = 4.7 k? and R3 = 4.7 k??

A) VR2 = 10 V, VR3 = 4.7 V
B) VR2 = 10 V, VR3 = 10 V
C) VR2 = 14.7 V, VR3 = 14.7 V
D) VR2 = 4.7 V, VR3 = 10 V
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5
In a series circuit, total power PT is calculated as:

A) P1 + P2 + P3 + etc.
B) P1 ÷ P2 ÷ P3 ÷ etc.
C) 1/P1 + 1/P2 + 1/P3 + etc.
D) P1 × P2 × P3 × etc.
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Unlock for access to all 7 flashcards in this deck.
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k this deck
6
If a circuit's resistance increases, its current decreases.
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7
A 250 ?A current flowing through a 4.7 k? resistor produces a ________ voltage drop.

A) 1.18 V
B) 1.18 mV
C) 53.2 V
D) 18.8 V
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