Physics for Scientists and Engineers: Foundations and Connections
Physics for Scientists and Engineers: Foundations and Connections
15th Edition
ISBN: 9781305289963
Author: Debora M. Katz
Publisher: Cengage Custom Learning
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Chapter 29, Problem 45PQ

Figure P29.45 shows five resistors connected between terminals a and b.

  1. a. What is the equivalent resistance of this combination of resistors?
  2. b. What is the current through each resistor if a 24.0-V battery is connected across the terminals?

Chapter 29, Problem 45PQ, Figure P29.45 shows five resistors connected between terminals a and b. a. What is the equivalent

(a)

Expert Solution
Check Mark
To determine

Find the equivalent resistance of the combination of the resistors.

Answer to Problem 45PQ

The equivalent resistance of the combination is 14.7Ω_.

Explanation of Solution

Consider R1 as the 20Ω resistance, R2 as the 5Ω resistance, R3 as the 9Ω resistance, R4 as the 2Ω resistance and R5 as the 12Ω resistance.

Physics for Scientists and Engineers: Foundations and Connections, Chapter 29, Problem 45PQ

Refer to figure above, the resistance R1 and R2 are in parallel.

Write the equivalent resistance across the two resistances as.

  1Req=1R1+1R2                                                                                                (I)

Here, Req is the equivalent parallel resistance of R1 and R2.

Further, the resistances R4 and R5 are in parallel.

Write the equivalent resistance across the two resistances as.

  1Req=1R4+1R5                                                                                     (II)

Here, Req is the equivalent parallel resistance of R4 and R5.

The circuit has Req , R3 and Req are three resistances connected in series.

Write the equivalent resistance of the circuit as.

  Rtotal=Req+R3+Req                                                                                   (III)

Here, Rtotal is the equivalent series resistance of circuit.

Conclusion:

Substitute 20Ω for R1 and 5Ω for R2 in equation (I).

  1Req=120Ω+15Ω1Req=25100Ω

Rearrange the terms in above equation

  Req=4Ω

Substitute 2Ω as R4 and 12Ω as R5 in equation (II).

  1Req=12Ω+112Ω1Req=1424Ω

Rearrange the terms in above equation

  Req=1.7Ω

Substitute 4Ω as Req, 9Ω as R3 and 1.7Ω as Req in equation (III).

  Rtotal=4Ω+9Ω+1.7Ω=14.7Ω

Thus, the equivalent resistance of the combination is 14.7Ω_.

(b)

Expert Solution
Check Mark
To determine

Find the current in each resistor in the circuit.

Answer to Problem 45PQ

The current flowing through 20Ω resistor is 0.326A_, the current flowing through 5Ω resistor is 1.30A_, the current flowing through 9Ω resistor is 1.63A_, the current flowing through 2Ω resistor is 1.40A_ and the current flowing through 12Ω resistor is 0.233A_.

Explanation of Solution

Write the expression for the current drawn by the circuit from the battery as.

  I=εRtotal                                                                                                      (IV)

Here, I is the current drawn, ε is the Emf of the battery and Rtotal is the equivalent resistance of circuit.

Write the expression for the voltage drop across R1 and R2 as.

  VReq=IReq                                                                                                     (V)

Here VReq is the voltage drop across Req.

Write the expression for the voltage drop across R4 and R5 as.

  VReq'=IReq                                                                                                   (VI)

Here VReq' is the voltage drop across Req.

In a parallel connection, the voltage drop across all the elements remains same. Therefore the voltage drop across R1 and R2 is same as VReq and the voltage drop across R4 and R5 is same as VReq.

Write the expression for the current through R1 and R2 as.

  I'=VReqR                                                                                                     (VII)

Here I' is the current through respective resistor.

Write the expression for the current through R4 and R5 as.

  I''=VReqR                                                                                                   (VIII)

Here I'' is the current through respective resistor and is the value of respective resistance.

The resistance R3 is connected in series to the circuit so the current flowing through the circuit will be the same as the current through Req.

Therefore, the current through the resistance R3 is same as I (current drawn from battery).

Conclusion:

Substitute 24V for ε and 14.7Ω for Rtotal in equation (IV).

  I=24V14.7Ω=1.63A

Substitute 1.63A for I and 4Ω for Req in the equation (V).

  VReq=(1.63A)(4Ω)=6.52V

Substitute 1.63A for I and 1.7Ω for Req in equation (VI).

    VReq'=(1.63A)(1.7Ω)=2.77 Ω2.8 Ω

Substitute I1 for I', 6.52V for VReq and 20Ω for R in equation (VII).

  I1=6.52V20Ω=0.326A

Substitute I2 for I', 6.52V for VReq and 5Ω for R in equation (IX).

  I2=6.52V5Ω=1.30A

The current through R3 is same as I .

  I3=1.63A

Substitute I4 for I'', 2.78V for VReq and 2Ω for R in equation (VIII).

  I4=2.8V2Ω=1.40A

Substitute I5 for I'', 2.78V for VReq and 12Ω for R in equation (VIII).

  I5=2.8V12Ω=0.233A

Thus, the current flowing through 20Ω resistor is 0.326A_, the current flowing through 5Ω resistor is 1.30A_, the current flowing through 9Ω resistor is 1.63A_, the current flowing through 2Ω resistor is 1.40A_ and the current flowing through 12Ω resistor is 0.233A_.

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Chapter 29 Solutions

Physics for Scientists and Engineers: Foundations and Connections

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