In the circuit shown, the 8-V battery is opposing the 12-V battery as they are positioned. The total voltage of the two batteries will be found by subtracting. a. What is the current flowing around the circuit? b. What is the voltage difference across the 20 Ω resistor? c. What is the power delivered by the 12-V battery? d. Is the 12-V battery discharging or charging in this arrangement?

Question

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Answer 1

Textbook Question

Chapter 13, Problem 3SP

In the circuit shown, the 8-V battery is opposing the 12-V battery as they are positioned. The total voltage of the two batteries will be found by subtracting.

a. What is the current flowing around the circuit?

b. What is the voltage difference across the 20 Ω resistor?

c. What is the power delivered by the 12-V battery?

d. Is the 12-V battery discharging or charging in this arrangement?

Chapter 13, Problem 3SP, In the circuit shown, the 8-V battery is opposing the 12-V battery as they are positioned. The total

(a)

Expert Solution

To determine

The current flowing in the circuit.

Answer to Problem 3SP

The current through the circuit is 0.057 A.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 1

The two batteries in the given circuit have opposite polarity in the circuit. So the net potential difference of the circuit will be the difference of the two potential of the two batteries.

Write the formula for the net potential difference of the circuit.

V=V1−V2

Here,

V is the net potential difference of the circuit

V1 is the potential of first battery

V2 is the potential of the second battery

The two resistance in the circuit are in series.

Write the formula for the equivalent resistance of the two resistances.

R=R1+R2

Here,

R is the equivalent resistance

R1 is the first resistance

R2 is the second resistance

Write the formula for current.

I=VR

Here,

I is the current in the circuit

Substitute the expression for R and I in the above equation.

I=V1−V2R1+R2

Substitute 12 V for V1, 8 V for V2, 50 Ω for R1, 20 Ω for R2 to determine I.

I=12 V−8 V50 Ω+20 Ω=0.057 A

Conclusion:

The current through the circuit is 0.057 A.

(b)

Expert Solution

To determine

The voltage difference across the 20 Ω resistor.

Answer to Problem 3SP

The voltage difference across the 20 Ω resistor is 1.14 V.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 2

The two batteries in the given circuit have opposite polarity in the circuit. So the net potential difference of the circuit will be the difference of the two potential of the two batteries.

Write the formula for the voltage difference across a resistor when two resistors are in series.

V1=(R1R1+R2)V

Here,

V is the net potential difference of the circuit

R1 is the first resistance

R2 is the second resistance

V1 is the potential across the first resistance

V2 is the potential across the second resistance

Substitute 4 V for V, 20 Ω for R1, 50 Ω for R2 to determine V1.

I=(20 Ω50 Ω+20 Ω)(4.0 V)=1.14 V

Conclusion:

The voltage difference across the 20 Ω resistor is 1.14 V.

(c)

Expert Solution

To determine

The power delivered by the battery with voltage 12 V

Answer to Problem 3SP

The power delivered by the battery with voltage 12 V is 0.686 W.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 3

Write the formula for the power delivered.

P=VI

Here,

P is the power delivered

V is the voltage

I is the current

From section (a) the current in the circuit is 0.057 A.

Substitute 0.057 A for I, 12 V for V to determine P.

P=(12 V)(0.057 A)=0.686 W

Conclusion:

The power delivered by the battery with voltage 12 V is 0.686 W.

(d)

Expert Solution

To determine

Whether the battery with voltage 12 V is discharging or charging.

Answer to Problem 3SP

The battery with voltage 12 V is charging.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 4

The overall voltage of the circuit is 4 V. Current flows from the positive terminal to the negative terminal of the 12 V battery.

Thus the battery with voltage 12 V is charging.

Conclusion:

The battery with voltage 12 V is charging.

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Answer 2

Textbook Question

Chapter 13, Problem 3SP

In the circuit shown, the 8-V battery is opposing the 12-V battery as they are positioned. The total voltage of the two batteries will be found by subtracting.

a. What is the current flowing around the circuit?

b. What is the voltage difference across the 20 Ω resistor?

c. What is the power delivered by the 12-V battery?

d. Is the 12-V battery discharging or charging in this arrangement?

Chapter 13, Problem 3SP, In the circuit shown, the 8-V battery is opposing the 12-V battery as they are positioned. The total

(a)

Expert Solution

To determine

The current flowing in the circuit.

Answer to Problem 3SP

The current through the circuit is 0.057 A.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 1

The two batteries in the given circuit have opposite polarity in the circuit. So the net potential difference of the circuit will be the difference of the two potential of the two batteries.

Write the formula for the net potential difference of the circuit.

V=V1−V2

Here,

V is the net potential difference of the circuit

V1 is the potential of first battery

V2 is the potential of the second battery

The two resistance in the circuit are in series.

Write the formula for the equivalent resistance of the two resistances.

R=R1+R2

Here,

R is the equivalent resistance

R1 is the first resistance

R2 is the second resistance

Write the formula for current.

I=VR

Here,

I is the current in the circuit

Substitute the expression for R and I in the above equation.

I=V1−V2R1+R2

Substitute 12 V for V1, 8 V for V2, 50 Ω for R1, 20 Ω for R2 to determine I.

I=12 V−8 V50 Ω+20 Ω=0.057 A

Conclusion:

The current through the circuit is 0.057 A.

(b)

Expert Solution

To determine

The voltage difference across the 20 Ω resistor.

Answer to Problem 3SP

The voltage difference across the 20 Ω resistor is 1.14 V.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 2

The two batteries in the given circuit have opposite polarity in the circuit. So the net potential difference of the circuit will be the difference of the two potential of the two batteries.

Write the formula for the voltage difference across a resistor when two resistors are in series.

V1=(R1R1+R2)V

Here,

V is the net potential difference of the circuit

R1 is the first resistance

R2 is the second resistance

V1 is the potential across the first resistance

V2 is the potential across the second resistance

Substitute 4 V for V, 20 Ω for R1, 50 Ω for R2 to determine V1.

I=(20 Ω50 Ω+20 Ω)(4.0 V)=1.14 V

Conclusion:

The voltage difference across the 20 Ω resistor is 1.14 V.

(c)

Expert Solution

To determine

The power delivered by the battery with voltage 12 V

Answer to Problem 3SP

The power delivered by the battery with voltage 12 V is 0.686 W.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 3

Write the formula for the power delivered.

P=VI

Here,

P is the power delivered

V is the voltage

I is the current

From section (a) the current in the circuit is 0.057 A.

Substitute 0.057 A for I, 12 V for V to determine P.

P=(12 V)(0.057 A)=0.686 W

Conclusion:

The power delivered by the battery with voltage 12 V is 0.686 W.

(d)

Expert Solution

To determine

Whether the battery with voltage 12 V is discharging or charging.

Answer to Problem 3SP

The battery with voltage 12 V is charging.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 4

The overall voltage of the circuit is 4 V. Current flows from the positive terminal to the negative terminal of the 12 V battery.

Thus the battery with voltage 12 V is charging.

Conclusion:

The battery with voltage 12 V is charging.

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Answer 3

Textbook Question

Chapter 13, Problem 3SP

In the circuit shown, the 8-V battery is opposing the 12-V battery as they are positioned. The total voltage of the two batteries will be found by subtracting.

a. What is the current flowing around the circuit?

b. What is the voltage difference across the 20 Ω resistor?

c. What is the power delivered by the 12-V battery?

d. Is the 12-V battery discharging or charging in this arrangement?

Chapter 13, Problem 3SP, In the circuit shown, the 8-V battery is opposing the 12-V battery as they are positioned. The total

(a)

Expert Solution

To determine

The current flowing in the circuit.

Answer to Problem 3SP

The current through the circuit is 0.057 A.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 1

The two batteries in the given circuit have opposite polarity in the circuit. So the net potential difference of the circuit will be the difference of the two potential of the two batteries.

Write the formula for the net potential difference of the circuit.

V=V1−V2

Here,

V is the net potential difference of the circuit

V1 is the potential of first battery

V2 is the potential of the second battery

The two resistance in the circuit are in series.

Write the formula for the equivalent resistance of the two resistances.

R=R1+R2

Here,

R is the equivalent resistance

R1 is the first resistance

R2 is the second resistance

Write the formula for current.

I=VR

Here,

I is the current in the circuit

Substitute the expression for R and I in the above equation.

I=V1−V2R1+R2

Substitute 12 V for V1, 8 V for V2, 50 Ω for R1, 20 Ω for R2 to determine I.

I=12 V−8 V50 Ω+20 Ω=0.057 A

Conclusion:

The current through the circuit is 0.057 A.

(b)

Expert Solution

To determine

The voltage difference across the 20 Ω resistor.

Answer to Problem 3SP

The voltage difference across the 20 Ω resistor is 1.14 V.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 2

The two batteries in the given circuit have opposite polarity in the circuit. So the net potential difference of the circuit will be the difference of the two potential of the two batteries.

Write the formula for the voltage difference across a resistor when two resistors are in series.

V1=(R1R1+R2)V

Here,

V is the net potential difference of the circuit

R1 is the first resistance

R2 is the second resistance

V1 is the potential across the first resistance

V2 is the potential across the second resistance

Substitute 4 V for V, 20 Ω for R1, 50 Ω for R2 to determine V1.

I=(20 Ω50 Ω+20 Ω)(4.0 V)=1.14 V

Conclusion:

The voltage difference across the 20 Ω resistor is 1.14 V.

(c)

Expert Solution

To determine

The power delivered by the battery with voltage 12 V

Answer to Problem 3SP

The power delivered by the battery with voltage 12 V is 0.686 W.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 3

Write the formula for the power delivered.

P=VI

Here,

P is the power delivered

V is the voltage

I is the current

From section (a) the current in the circuit is 0.057 A.

Substitute 0.057 A for I, 12 V for V to determine P.

P=(12 V)(0.057 A)=0.686 W

Conclusion:

The power delivered by the battery with voltage 12 V is 0.686 W.

(d)

Expert Solution

To determine

Whether the battery with voltage 12 V is discharging or charging.

Answer to Problem 3SP

The battery with voltage 12 V is charging.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 4

The overall voltage of the circuit is 4 V. Current flows from the positive terminal to the negative terminal of the 12 V battery.

Thus the battery with voltage 12 V is charging.

Conclusion:

The battery with voltage 12 V is charging.

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Answer 4

Textbook Question

Chapter 13, Problem 3SP

In the circuit shown, the 8-V battery is opposing the 12-V battery as they are positioned. The total voltage of the two batteries will be found by subtracting.

a. What is the current flowing around the circuit?

b. What is the voltage difference across the 20 Ω resistor?

c. What is the power delivered by the 12-V battery?

d. Is the 12-V battery discharging or charging in this arrangement?

Chapter 13, Problem 3SP, In the circuit shown, the 8-V battery is opposing the 12-V battery as they are positioned. The total

(a)

Expert Solution

To determine

The current flowing in the circuit.

Answer to Problem 3SP

The current through the circuit is 0.057 A.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 1

The two batteries in the given circuit have opposite polarity in the circuit. So the net potential difference of the circuit will be the difference of the two potential of the two batteries.

Write the formula for the net potential difference of the circuit.

V=V1−V2

Here,

V is the net potential difference of the circuit

V1 is the potential of first battery

V2 is the potential of the second battery

The two resistance in the circuit are in series.

Write the formula for the equivalent resistance of the two resistances.

R=R1+R2

Here,

R is the equivalent resistance

R1 is the first resistance

R2 is the second resistance

Write the formula for current.

I=VR

Here,

I is the current in the circuit

Substitute the expression for R and I in the above equation.

I=V1−V2R1+R2

Substitute 12 V for V1, 8 V for V2, 50 Ω for R1, 20 Ω for R2 to determine I.

I=12 V−8 V50 Ω+20 Ω=0.057 A

Conclusion:

The current through the circuit is 0.057 A.

(b)

Expert Solution

To determine

The voltage difference across the 20 Ω resistor.

Answer to Problem 3SP

The voltage difference across the 20 Ω resistor is 1.14 V.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 2

The two batteries in the given circuit have opposite polarity in the circuit. So the net potential difference of the circuit will be the difference of the two potential of the two batteries.

Write the formula for the voltage difference across a resistor when two resistors are in series.

V1=(R1R1+R2)V

Here,

V is the net potential difference of the circuit

R1 is the first resistance

R2 is the second resistance

V1 is the potential across the first resistance

V2 is the potential across the second resistance

Substitute 4 V for V, 20 Ω for R1, 50 Ω for R2 to determine V1.

I=(20 Ω50 Ω+20 Ω)(4.0 V)=1.14 V

Conclusion:

The voltage difference across the 20 Ω resistor is 1.14 V.

(c)

Expert Solution

To determine

The power delivered by the battery with voltage 12 V

Answer to Problem 3SP

The power delivered by the battery with voltage 12 V is 0.686 W.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 3

Write the formula for the power delivered.

P=VI

Here,

P is the power delivered

V is the voltage

I is the current

From section (a) the current in the circuit is 0.057 A.

Substitute 0.057 A for I, 12 V for V to determine P.

P=(12 V)(0.057 A)=0.686 W

Conclusion:

The power delivered by the battery with voltage 12 V is 0.686 W.

(d)

Expert Solution

To determine

Whether the battery with voltage 12 V is discharging or charging.

Answer to Problem 3SP

The battery with voltage 12 V is charging.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 4

The overall voltage of the circuit is 4 V. Current flows from the positive terminal to the negative terminal of the 12 V battery.

Thus the battery with voltage 12 V is charging.

Conclusion:

The battery with voltage 12 V is charging.

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Answer 5

Textbook Question

Answer 6

Textbook Question

Answer 7

(a)

Expert Solution

To determine

The current flowing in the circuit.

Answer to Problem 3SP

The current through the circuit is 0.057 A.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 1

The two batteries in the given circuit have opposite polarity in the circuit. So the net potential difference of the circuit will be the difference of the two potential of the two batteries.

Write the formula for the net potential difference of the circuit.

V=V1−V2

Here,

V is the net potential difference of the circuit

V1 is the potential of first battery

V2 is the potential of the second battery

The two resistance in the circuit are in series.

Write the formula for the equivalent resistance of the two resistances.

R=R1+R2

Here,

R is the equivalent resistance

R1 is the first resistance

R2 is the second resistance

Write the formula for current.

I=VR

Here,

I is the current in the circuit

Substitute the expression for R and I in the above equation.

I=V1−V2R1+R2

Substitute 12 V for V1, 8 V for V2, 50 Ω for R1, 20 Ω for R2 to determine I.

I=12 V−8 V50 Ω+20 Ω=0.057 A

Conclusion:

The current through the circuit is 0.057 A.

(b)

Expert Solution

To determine

The voltage difference across the 20 Ω resistor.

Answer to Problem 3SP

The voltage difference across the 20 Ω resistor is 1.14 V.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 2

The two batteries in the given circuit have opposite polarity in the circuit. So the net potential difference of the circuit will be the difference of the two potential of the two batteries.

Write the formula for the voltage difference across a resistor when two resistors are in series.

V1=(R1R1+R2)V

Here,

V is the net potential difference of the circuit

R1 is the first resistance

R2 is the second resistance

V1 is the potential across the first resistance

V2 is the potential across the second resistance

Substitute 4 V for V, 20 Ω for R1, 50 Ω for R2 to determine V1.

I=(20 Ω50 Ω+20 Ω)(4.0 V)=1.14 V

Conclusion:

The voltage difference across the 20 Ω resistor is 1.14 V.

(c)

Expert Solution

To determine

The power delivered by the battery with voltage 12 V

Answer to Problem 3SP

The power delivered by the battery with voltage 12 V is 0.686 W.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 3

Write the formula for the power delivered.

P=VI

Here,

P is the power delivered

V is the voltage

I is the current

From section (a) the current in the circuit is 0.057 A.

Substitute 0.057 A for I, 12 V for V to determine P.

P=(12 V)(0.057 A)=0.686 W

Conclusion:

The power delivered by the battery with voltage 12 V is 0.686 W.

(d)

Expert Solution

To determine

Whether the battery with voltage 12 V is discharging or charging.

Answer to Problem 3SP

The battery with voltage 12 V is charging.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 4

The overall voltage of the circuit is 4 V. Current flows from the positive terminal to the negative terminal of the 12 V battery.

Thus the battery with voltage 12 V is charging.

Conclusion:

The battery with voltage 12 V is charging.

Answer 8

(a)

Expert Solution

To determine

The current flowing in the circuit.

Answer to Problem 3SP

The current through the circuit is 0.057 A.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 1

The two batteries in the given circuit have opposite polarity in the circuit. So the net potential difference of the circuit will be the difference of the two potential of the two batteries.

Write the formula for the net potential difference of the circuit.

V=V1−V2

Here,

V is the net potential difference of the circuit

V1 is the potential of first battery

V2 is the potential of the second battery

The two resistance in the circuit are in series.

Write the formula for the equivalent resistance of the two resistances.

R=R1+R2

Here,

R is the equivalent resistance

R1 is the first resistance

R2 is the second resistance

Write the formula for current.

I=VR

Here,

I is the current in the circuit

Substitute the expression for R and I in the above equation.

I=V1−V2R1+R2

Substitute 12 V for V1, 8 V for V2, 50 Ω for R1, 20 Ω for R2 to determine I.

I=12 V−8 V50 Ω+20 Ω=0.057 A

Conclusion:

The current through the circuit is 0.057 A.

Answer 9

(a)

Expert Solution

Answer 10

(a)

Expert Solution

Answer 11

Expert Solution

Answer 12

To determine

The current flowing in the circuit.

Answer 13

Answer to Problem 3SP

The current through the circuit is 0.057 A.

Answer 14

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 1

The two batteries in the given circuit have opposite polarity in the circuit. So the net potential difference of the circuit will be the difference of the two potential of the two batteries.

Write the formula for the net potential difference of the circuit.

V=V1−V2

Here,

V is the net potential difference of the circuit

V1 is the potential of first battery

V2 is the potential of the second battery

The two resistance in the circuit are in series.

Write the formula for the equivalent resistance of the two resistances.

R=R1+R2

Here,

R is the equivalent resistance

R1 is the first resistance

R2 is the second resistance

Write the formula for current.

I=VR

Here,

I is the current in the circuit

Substitute the expression for R and I in the above equation.

I=V1−V2R1+R2

Substitute 12 V for V1, 8 V for V2, 50 Ω for R1, 20 Ω for R2 to determine I.

I=12 V−8 V50 Ω+20 Ω=0.057 A

Conclusion:

The current through the circuit is 0.057 A.

Answer 15

(b)

Expert Solution

To determine

The voltage difference across the 20 Ω resistor.

Answer to Problem 3SP

The voltage difference across the 20 Ω resistor is 1.14 V.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 2

The two batteries in the given circuit have opposite polarity in the circuit. So the net potential difference of the circuit will be the difference of the two potential of the two batteries.

Write the formula for the voltage difference across a resistor when two resistors are in series.

V1=(R1R1+R2)V

Here,

V is the net potential difference of the circuit

R1 is the first resistance

R2 is the second resistance

V1 is the potential across the first resistance

V2 is the potential across the second resistance

Substitute 4 V for V, 20 Ω for R1, 50 Ω for R2 to determine V1.

I=(20 Ω50 Ω+20 Ω)(4.0 V)=1.14 V

Conclusion:

The voltage difference across the 20 Ω resistor is 1.14 V.

Answer 16

(b)

Expert Solution

Answer 17

(b)

Expert Solution

Answer 18

Expert Solution

Answer 19

To determine

The voltage difference across the 20 Ω resistor.

Answer 20

Answer to Problem 3SP

The voltage difference across the 20 Ω resistor is 1.14 V.

Answer 21

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 2

The two batteries in the given circuit have opposite polarity in the circuit. So the net potential difference of the circuit will be the difference of the two potential of the two batteries.

Write the formula for the voltage difference across a resistor when two resistors are in series.

V1=(R1R1+R2)V

Here,

V is the net potential difference of the circuit

R1 is the first resistance

R2 is the second resistance

V1 is the potential across the first resistance

V2 is the potential across the second resistance

Substitute 4 V for V, 20 Ω for R1, 50 Ω for R2 to determine V1.

I=(20 Ω50 Ω+20 Ω)(4.0 V)=1.14 V

Conclusion:

The voltage difference across the 20 Ω resistor is 1.14 V.

Answer 22

(c)

Expert Solution

To determine

The power delivered by the battery with voltage 12 V

Answer to Problem 3SP

The power delivered by the battery with voltage 12 V is 0.686 W.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 3

Write the formula for the power delivered.

P=VI

Here,

P is the power delivered

V is the voltage

I is the current

From section (a) the current in the circuit is 0.057 A.

Substitute 0.057 A for I, 12 V for V to determine P.

P=(12 V)(0.057 A)=0.686 W

Conclusion:

The power delivered by the battery with voltage 12 V is 0.686 W.

Answer 23

(c)

Expert Solution

Answer 24

(c)

Expert Solution

Answer 25

Expert Solution

Answer 26

To determine

The power delivered by the battery with voltage 12 V

Answer 27

Answer to Problem 3SP

The power delivered by the battery with voltage 12 V is 0.686 W.

Answer 28

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 3

Write the formula for the power delivered.

P=VI

Here,

P is the power delivered

V is the voltage

I is the current

From section (a) the current in the circuit is 0.057 A.

Substitute 0.057 A for I, 12 V for V to determine P.

P=(12 V)(0.057 A)=0.686 W

Conclusion:

The power delivered by the battery with voltage 12 V is 0.686 W.

Answer 29

(d)

Expert Solution

To determine

Whether the battery with voltage 12 V is discharging or charging.

Answer to Problem 3SP

The battery with voltage 12 V is charging.

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 4

The overall voltage of the circuit is 4 V. Current flows from the positive terminal to the negative terminal of the 12 V battery.

Thus the battery with voltage 12 V is charging.

Conclusion:

The battery with voltage 12 V is charging.

Answer 30

(d)

Expert Solution

Answer 31

(d)

Expert Solution

Answer 32

Expert Solution

Answer 33

To determine

Whether the battery with voltage 12 V is discharging or charging.

Answer 34

Answer to Problem 3SP

The battery with voltage 12 V is charging.

Answer 35

Explanation of Solution

Given info: The given circuit is shown below.

Physics of Everyday Phenomena, Chapter 13, Problem 3SP , additional homework tip 4

The overall voltage of the circuit is 4 V. Current flows from the positive terminal to the negative terminal of the 12 V battery.

Thus the battery with voltage 12 V is charging.

Conclusion:

The battery with voltage 12 V is charging.

Answer 36

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Answer to Problem 3SP

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Answer to Problem 3SP

Explanation of Solution

Answer to Problem 3SP

Explanation of Solution

Answer to Problem 3SP

Explanation of Solution

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