Physics for Scientists and Engineers with Modern, Revised Hybrid (with Enhanced WebAssign Printed Access Card for Physics, Multi-Term Courses)
Physics for Scientists and Engineers with Modern, Revised Hybrid (with Enhanced WebAssign Printed Access Card for Physics, Multi-Term Courses)
9th Edition
ISBN: 9781305266292
Author: Raymond A. Serway, John W. Jewett
Publisher: Cengage Learning
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Chapter 31, Problem 37P
To determine

The current in the resistor R3.

Expert Solution & Answer
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Answer to Problem 37P

The net current in R3 will be 145μA upward direction in the picture.

Explanation of Solution

Write the expression for the induced emf.

    e=Binvl                                                                                                                     (I)

Here, e is emf, Bin is the magnetic field, v is the velocity of the rod and l is the length of the rod.

Conclusion:

Calculate the emf for the left rod.

Substitute 0.0100T for Bin, 10.0cm for l and 4.00m/s for v in equation (I) to find emf

    e1=(0.0100T)(4.00m/s)(10.0cm)=(0.0100T)(4.00m/s)(10.0cm×(1m100cm))=(0.0100T)(4.00m/s)(0.1m)=0.004V

Here, e1 is the emf in the leftward rod.

Calculate the emf for the sright rod.

Substitute 0.0100T for Bin, 10.0cm for l and 2.00m/s for v in equation (I) to find the emf.

    e2=(0.0100T)(2.00m/s)(10.0cm)=(0.0100T)(2.00m/s)(10.0cm(1m100cm))=(0.0100T)(2.00m/s)(0.1m)=0.002V

Here, e2 is the emf in the rightward rod.

Let the current in left loop be I1 and in right loop be I2.

It is given that R1 is the resistance in the left rod, R2 is the resistance in the right rod and R3 is the resistance in between these two as shown in the picture.

Apply Kirchhoff voltage law in left loop.

    I1R1e1I1R3+I2R3=0                                                                                       (II)

Apply Kirchhoff voltage law in right loop.

    e2I2R2I2R3+I1R3=0                                                                                     (III)

Substitute 0.004V for e1 10.0Ω for R1, 5.00Ω for R3 in equation (II).

    I1(10.0Ω)0.004VI1(5.00Ω)+I2(5.00Ω)=0(15Ω)I1+(5Ω)I2=0.004VI2=0.004V+(15Ω)I15Ω

Substitute 0.002V for e2 15.0Ω for R2, 5.00Ω for R3 in equation (III).

    0.002VI2(15.0Ω)I2(5.00Ω)+I1(5.00Ω)=0(20Ω)I2+(5Ω)I1=0.002V

Further solve for I2.

    I2=0.002V(5Ω)I120Ω                                                                                          (IV)

Substitute 0.004V+(15Ω)I15Ω for I2 in equation (IV).

    0.004V+(15Ω)I15Ω=0.002V(5Ω)I120Ω4(0.004V+(15Ω)I1)=0.002V(5Ω)I10.016V(55Ω)I1=0.002V(55Ω)I1=0.018V

Further solve for I1.

    I1=3.27×104A=3.27×104A×(1μA106A)=327μA

Therefore, current in the left loop is 327μA.

Substitute 327μA for I1 in equation (IV) to find I2.

    I2=0.002V(5Ω)(327μA)120Ω=1.817×104A=1.817×104A(1μA106A)=182μA

Therefore current in the right loop is 182μA.

Net current Inet in R3 will be due to both the loops.

    Inet=I1I2

Substitute 327μA for I1 and 182μA for I2 in above equation to find net current in R3.

    Inet=(327μA)(182μA)=327μA+182μA=145μA

Therefore, the net current in R3 will be 145μA in the upward direction in picture.

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Chapter 31 Solutions

Physics for Scientists and Engineers with Modern, Revised Hybrid (with Enhanced WebAssign Printed Access Card for Physics, Multi-Term Courses)

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