EBK PHYSICS FOR SCIENTISTS AND ENGINEER
EBK PHYSICS FOR SCIENTISTS AND ENGINEER
9th Edition
ISBN: 8220100461262
Author: SERWAY
Publisher: Cengage Learning US
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Question
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Chapter 30, Problem 30.72CP

(a)

To determine

To draw: The magnetic field pattern in the yz plane.

(a)

Expert Solution
Check Mark

Answer to Problem 30.72CP

The magnetic field pattern in the yz plane is shown below.

EBK PHYSICS FOR SCIENTISTS AND ENGINEER, Chapter 30, Problem 30.72CP , additional homework tip  1

Figure (1)

Explanation of Solution

Given info: The amount of current flow in infinitely long wire is 8.00A and the distance between the wires is 6.00cm .

The magnetic field pattern in the yz plane is shown below.

EBK PHYSICS FOR SCIENTISTS AND ENGINEER, Chapter 30, Problem 30.72CP , additional homework tip  2

Figure (1)

From the right hand thumb rule, when the thumb is directed towards the direction of current, the curled fingers show the direction of magnetic field.

(b)

To determine

The value of magnetic field at origin.

(b)

Expert Solution
Check Mark

Answer to Problem 30.72CP

The value of magnetic field at origin is μ0Izπ(a2+z2) .

Explanation of Solution

Given info: The amount of current flow in infinitely long wire is 8.00A and the distance between the wires is 6.00cm .

The direction of magnetic field due to current carry wire is shown below.

EBK PHYSICS FOR SCIENTISTS AND ENGINEER, Chapter 30, Problem 30.72CP , additional homework tip  3

Figure (2)

Write the expression for the magnetic field due to current carrying wire.

B=μ0I2πr (1)

Here,

μ0 is the constant.

I is the amount of current flow in the wire.

r is the distance of the wire from the origin.

From the given figure,

r=a2+z2

Substitute a2+z2 for r in the equation (1).

B=μ0I2πa2+z2

The magnetic field component Bsinθ along z -axis cancel out with each other.

The resultant magnetic field along y- axis is,

By=Bcosθ+Bcosθ=2Bcosθ

Substitute μ0I2πa2+z2 for B in the above equation.

By=2(μ0I2πa2+z2)cosθ . (2)

From the figure (2),

cosθ=za2+z2

Substitute aa2+z2 for cosθ in the equation (1).

By=2(μ0I2πa2+z2)(za2+z2)=μ0Izπ(a2+z2) (3)

Conclusion:

Therefore, the value of magnetic field at origin is μ0Izπ(a2+z2) .

(c)

To determine

The value of magnetic field at y=0 , z .

(c)

Expert Solution
Check Mark

Answer to Problem 30.72CP

The value of magnetic field at y=0 , z is 0 .

Explanation of Solution

Given info: The amount of current flow in infinitely long wire is 8.00A and the distance between the wires is 6.00cm .

From the equation (3), the expression for magnetic field is,

By=μ0Izπ(a2+z2)

The value of magnetic field at y=0 , z is,

limzBy=limzμ0Izπ(a2+z2)(By)z==μ0Izπ(a2+2)=0

Conclusion:

Therefore, the value of magnetic field at y=0 , z is 0 .

(d)

To determine

The magnetic field at points along the z- axis as a function of z .

(d)

Expert Solution
Check Mark

Answer to Problem 30.72CP

The magnetic field at points along the z- axis as a function of z is μ0Izπ(a2+z2) .

Explanation of Solution

Given info: The amount of current flow in infinitely long wire is 8.00A and the distance between the wires is 6.00cm .

From the calculated value in part (b), the magnetic field at points along the z- axis as a function of z is,

B=μ0Izπ(a2+z2)

Conclusion:

Therefore, the magnetic field at points along the z- axis as a function of z is μ0Izπ(a2+z2) .

(e)

To determine

The distance along the positive z- axis at which the magnetic field is maximum.

(e)

Expert Solution
Check Mark

Answer to Problem 30.72CP

The magnetic field is maximum at z=3.00cm .

Explanation of Solution

Given info: The amount of current flow in infinitely long wire is 8.00A and the distance between the wires is 6.00cm .

From the calculated value in part (b), the magnetic field at points along the z- axis as a function of z is,

B=μ0Izπ(a2+z2)

For maximum value of B .

dBdz=0

Substitute μ0Izπ(a2+z2) for B in the above equation.

ddz{μ0Izπ(a2+z2)}=0μ0Iπ(1(a2+z2)z2z(a2+z2)2)=0μ0Iπ(a2z2a2+z2)=0a=z

Substitute 3.00cm for a in the above equation.

z=3.00cm

Conclusion:

Therefore, the magnetic field is maximum at z=3.00cm .

(f)

To determine

The maximum value of magnetic field.

(f)

Expert Solution
Check Mark

Explanation of Solution

Given info: The amount of current flow in infinitely long wire is 8.00A and the distance between the wires is 6.00cm .

From the calculated value in part (b), the magnetic field at points along the z- axis as a function of z is,

B=μ0Izπ(a2+z2)

Substitute a for z in the above equation.

Bmax=μ0Iaπ(a2+a2)=μ0I2πa

Substitute 4π×107H/m for μ0 , 8.00A for I and 3.00cm for a in the above equation.

Bmax=(4π×107H/m)(8.00A)2π(3.00cm)=(4π×107H/m)(8.00A)2π(3.00cm×1m100cm)=(4π×107H/m)(8.00A)2π(0.03m)=5.33×105T

Simplify further,

Bmax=(5.33×105T)(1μT106T)=53.3μT

Conclusion:

Therefore, the maximum value of magnetic field is 53.3μT .

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Chapter 30 Solutions

EBK PHYSICS FOR SCIENTISTS AND ENGINEER

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