Physics for Scientists and Engineers: Foundations and Connections
Physics for Scientists and Engineers: Foundations and Connections
1st Edition
ISBN: 9781133939146
Author: Katz, Debora M.
Publisher: Cengage Learning
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Chapter 30, Problem 20PQ

Two long, straight, parallel wires carry current as shown in Figure P30.18. If the currents are equal, find an expression for the magnetic field at point C. Use the indicated coordinate system to write your answer in component form.

Chapter 30, Problem 20PQ, Two long, straight, parallel wires carry current as shown in Figure P30.18. If the currents are

FIGURE P30.18

Expert Solution & Answer
Check Mark
To determine

Find the expression for the magnetic field at point C in component form

Answer to Problem 20PQ

The expression for net magnetic field at point C is 0.40μ0IπrT(i^).

Explanation of Solution

Redraw the figure P30.19 as shown below:

Physics for Scientists and Engineers: Foundations and Connections, Chapter 30, Problem 20PQ , additional homework tip  1

Write the general expression for magnetic field due to wire as.

    B=μ0I2πr                                                                                                        (I)

Here, B is the magnetic field, I is current, μ0 is permeability of free space and r is the distance of the point from the wire.

The direction of the magnetic field at a point due to a current carrying wire is given by the right hand palm rule.

According to this rule, the thumb of the right hand faces in the direction of the current in the wire, the fingers face towards the point at which magnetic field is to be calculated then the palm faces in the direction of the magnetic field.

The current flowing in the wires is same and the point is at the equal distances from both the wire. Therefore, the vertical components of the magnetic fields will be same for both wires and they will cancel out each other.

Write the expression for the net magnetic field at point C refers to figure (a) above as.

    Bnet=(B1sinθ+B2sinθ)                                                                             (II)

Here, Bnet is net magnetic field, B1 is magnetic field at point C due to wire carrying current I1, B2 is magnetic field at point C due to wire carrying current I2 and θ is angle made by B1 from the vertical.

Physics for Scientists and Engineers: Foundations and Connections, Chapter 30, Problem 20PQ , additional homework tip  2

Apply Pythagoras theorem in triangle ΔI1AC refer to figure (b) as.

    r1=(I1A)2+(AC)2=r2+(2r)2=r2+4r2=5r2

Simplify above equation as.

    r1=r5

Apply Pythagoras theorem in triangle ΔI2AC refer to figure (b) as.

    r2=(I2A)2+(AC)2=r2+(2r)2=r2+4r2=5r2

Simplify above equation as.

    r2=r5

The net magnetic field due to the two wires is in the positive X-direction. The components of the field in the X-direction are calculated as below.

Substitute B1sinθ for B, r1 for r and I1 for I in equation (I).

    B1sinθ=μ0I12πr1sinθ                                                                                      (III)

Here, B1sinθ is the horizontal component of the magnetic field due to the wire carrying current I1 and r1 is distance of the point from the wire.

Substitute B2sinθ for B, r2 for r and I2 for I in equation (I).

    B2sinθ=μ0I22πr2sinθ                                                                                     (IV)

Here, B2sinθ is the horizontal component of the magnetic field due to the wire carrying current I2 and r2 is distance of the point from the wire.

Write the expression for the value of θ from figure (b) as.

  θ=tan1(2rr)=tan1(2)63.5°

Substitute r5 for r1 and I for I1 in equation (III).

    B1sinθ=μ0I2πr5sinθ

Substitute r5 for r2 and I for I2 in equation (IV).

    B2sinθ=μ0I2πr5sinθ

Conclusion:

Substitute μ0I2πr5sinθ for B1sinθ, μ0I2πr5sinθ for B2sinθ and 63.5° for θ in equation (II).

    Bnet=(μ0I2πr5sin(63.5°)+μ0I2πr5sin(63.5°))(i^)T=(μ0Iπr5sin(63.5°))(i^)T=(0.40)μ0Iπr(i^)T

Thus, the expression for net magnetic field at point C is 0.40μ0IπrT(i^).

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Chapter 30 Solutions

Physics for Scientists and Engineers: Foundations and Connections

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