EBK PHYSICS FOR SCIENTISTS AND ENGINEER
EBK PHYSICS FOR SCIENTISTS AND ENGINEER
1st Edition
ISBN: 9780100546714
Author: Katz
Publisher: YUZU
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Chapter 29, Problem 40PQ

The emf in Figure P29.40 is 4.54 V. The resistances are R 1 = 13.0 Ω , R 2 = 26.0 Ω , and R 3 = 39.0 Ω Find

  1. a. the current in each resistor,
  2. b. the power consumed by each resistor, and
  3. c. the power supplied by the emf device.

Chapter 29, Problem 40PQ, The emf in Figure P29.40 is 4.54 V. The resistances are R1=13.0, R2=26.0, and R3=39.0 Find a. the

 (a)

Expert Solution
Check Mark
To determine

Determine the current in each resistor.

Answer to Problem 40PQ

The current in resistor R1 is 0.349 A, The current in resistor R2 is 0.069A and The current in resistor  R3 is 0.069A.

Explanation of Solution

Refer to figure P29.40, in the given circuit, R1 is parallel to the R2 and R3 where R2 and R3 is in series.

Write the expression for current in resistor R1 as.

  I1=εR1                                                                                                          (I)

Here, I1 is current passes through R1, R1 is resistor and ε is emf of device.

Write the expression for current in R2 as.

  I2=εR2+R3                                                                                                (II)

Here, I2 is current passes through R2, R2 is the resistance and ε is the emf of the device.

The current through resistance R2 and R3 will be same.

  I2=I3

Here, I3 is the current through resistance R3 .

Conclusion:

Substitute 4.54 V for ε and 13.0 Ω for R1 in equation (I).

  I1=4.54 V13.0 Ω=0.349 A

Substitute 4.54 V for ε and 26.0 Ω for R2 and 39.0 Ω for R3 in equation (II).

    I2=4.54 V26.0 Ω+39.0 Ω=0.069A

As the current I3 is equal to I2 therefore, the current passing through resistor R3 is 0.069A.

Therefore, the current in resistor R1 is 0.349 A, The current in resistor R2 is 0.069A and The current in resistor  R3 is 0.069A.

(b)

Expert Solution
Check Mark
To determine

Power consumed by each resistor.

Answer to Problem 40PQ

Power consumed by resistor R1 is 1.5925 W_, R2 is 0.1274 W_ and R3 is 0.1911 W_.

Explanation of Solution

Write the expression for power consumed by each resistor as.

  P=I2R                                                                                                       (III)

Here, P is power, I is current and R is resistance.

Substitute P1 for P and R1 for R in equation (III).

    P1=I2R1                                                                                                      (IV)

Here, P1 is power absorbed by resistor R1 and R1 is resistance of first resistor.

Substitute P2 for P and R2 for R in equation (III)

    P2=I2R2                                                                                                     (V)

Here, P2 is power absorbed by resistor R2 and R2 is resistance of second resistor.

Substitute P3 for P and R3 for R in equation (III)

    P3=I2R3                                                                                                     (VI)

Here, P3 is power absorbed by resistor R3 and R3 is the resistance of third resistor.

Conclusion:

Substitute 0.349 A for I1 and 13.0  Ω for R1 in equation (IV).

  P1=I12R1=(0.349 A)2(13.0 Ω)=1.58 W

Substitute 0.0698 A for I2 and 26.0  Ω for R2 in equation (V).

  P2=I22R2=(0.0698 A)2(26.0 Ω)=0.127 W

Substitute 0.0698 A for I3 and 39.0  Ω for R3 in equation (VI).

  P3=I32R3=(0.0698 A)2(39.0 Ω)=0.190 W

Thus, the power consumed by resistor R1 is 1.58 W_, R2 is 0.127 W_ and R3 is 0.190 W_.

(c)

Expert Solution
Check Mark
To determine

Power supplied by the Emf device.

Answer to Problem 40PQ

Power supplied by the emf device is 1.90 W_.

Explanation of Solution

Write the expression for power drawn by the circuit as.

  P=ε2Req                                                                                                      (VII)

Here, Req is equivalent resistance of the circuit.

Write the expression for equivalent resistance of the given circuit as.

  Req=R1(R2+R3)R1+(R2+R3)

Substitute R1(R2+R3)R1+(R2+R3) for Req in equation (VII).

    P=ε2R1(R2+R3)R1+(R2+R3)

Rearrange the above expression as.

  P=ε2(R1+(R2+R3))R1(R2+R3)                                                                            (VIII)

Here, R1, R2 and R3 is circuit elements of the circuit.

Conclusion:

Substitute 4.54 V for ε, 13.0  Ω for R1, 26.0  Ω for R2 and 39.0  Ω for R3 in equation (VIII).

  P=(4.54 V)2(13.0 Ω+(26.0 Ω+39.0 Ω))13.0 Ω(26.0 Ω+39.0 Ω)=20.6116 V2(13.0 Ω+65.0 Ω)(13.0 Ω)(65.0 Ω)=(20.6116 V2)(78.0 Ω)845.0 Ω=1.9026 W1.90 W

Thus, the power supplied by the emf device is 1.90 W_.

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Chapter 29 Solutions

EBK PHYSICS FOR SCIENTISTS AND ENGINEER

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