Loose Leaf For Engineering Electromagnetics
Loose Leaf For Engineering Electromagnetics
9th Edition
ISBN: 9781260472370
Author: John A. Buck, William H. Hayt
Publisher: McGraw-Hill Education
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Textbook Question
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Chapter 8, Problem 8.27P

Let đ�œ‡rj = 2 in region 1, defined by 2x + 3y — 4z >1, while pr2 = 5 in region 2 where 2x + 3y - 4z < 1. In region 1, H1 = 50ax - 30ay + 20az A/m. Find (o) HM1; (b) Hr1 (c)Hr2; (d) HN2 (e) 01, the angle between H1 and aN2; (f) 02, the angle between H2 and aN2].

Expert Solution
Check Mark
To determine

(a)

The value of HN1.

Answer to Problem 8.27P

The required value is, HN1=4.83ax7.24ay+9.66azA/m.

Explanation of Solution

Given Information:

The region 1 is 2x+3y4z>1 , and region 2 is 2x+3y4z<1.

   μr1=2μr2=5H1=50ax30ay+20azA/m

Calculation:

Both regions are separated by the surface 2x+3y4z=1 . So, the unit normal vector,

   a^N=1 2 2 + 3 2 + 4 2 (2ax+3ay4az) =1 29(2ax+3ay4az)

So, the normal component of magnetic field intensity:

   HN1=(H 1a ^N)a^N =(( 50 a x 30 a y +20 a z )1 29 ( 2 a x +3 a y 4 a z ))1 29(2ax+3ay4az) =7029(2ax+3ay4az) =4.83ax7.24ay+9.66azA/m

Conclusion:

The required value is, HN1=4.83ax7.24ay+9.66azA/m.

Expert Solution
Check Mark
To determine

(b)

The value of Ht1.

Answer to Problem 8.27P

The required value is, Ht1=54.83ax22.76ay+10.34azA/m.

Explanation of Solution

Given Information:

The region 1 is 2x+3y4z>1 , and region 2 is 2x+3y4z<1.

   μr1=2μr2=5H1=50ax30ay+20azA/mHN1=4.83ax7.24ay+9.66azA/m

Calculation:

The tangential component of magnetic field intensity:

   Ht1=H1HN1=(50ax30ay+20az)(4.83ax7.24ay+9.66az) =54.83ax22.76ay+10.34azA/m

Conclusion:

The required value is, Ht1=54.83ax22.76ay+10.34azA/m.

Expert Solution
Check Mark
To determine

(c)

The value of Ht2.

Answer to Problem 8.27P

The required value is, Ht2=54.83ax22.76ay+10.34azA/m.

Explanation of Solution

Given Information:

The region 1 is 2x+3y4z>1 , and region 2 is 2x+3y4z<1.

   μr1=2μr2=5H1=50ax30ay+20azA/mHt1=54.83ax22.76ay+10.34azA/m

Calculation:

The tangential components of magnetic field intensity are continuous across the surface between the regions. So:

:

   Ht2=Ht1=54.83ax22.76ay+10.34azA/m

Conclusion:

The required value is, Ht2=54.83ax22.76ay+10.34azA/m.

Expert Solution
Check Mark
To determine

(d)

The value of HN2.

Answer to Problem 8.27P

The required value is, HN2=1.93ax2.90ay+3.86azA/m.

Explanation of Solution

Given Information:

The region 1 is 2x+3y4z>1 , and region 2 is 2x+3y4z<1.

   μr1=2μr2=5H1=50ax30ay+20azA/m

Calculation:

The normal components of magnetic flux density are continuous across the surface between the regions. So,:

   BN1=BN1 μr1μ0HN1=μr2μ0HN2 HN2=μ r1μ r2HN1=25(4.83ax7.24ay+9.66az) =1.93ax2.90ay+3.86azA/m

Conclusion:

The required value is, HN2=1.93ax2.90ay+3.86azA/m.

Expert Solution
Check Mark
To determine

(e)

The angle between H1 and a^N21.

Answer to Problem 8.27P

The angle between H1 and a^N21 is, θ1=102°.

Explanation of Solution

Given Information:

The region 1 is 2x+3y4z>1 , and region 2 is 2x+3y4z<1.

   μr1=2μr2=5H1=50ax30ay+20azA/m

Calculation:

The unit normal vector:

   aN21=129(2ax+3ay4az)

The required angle:

   cosθ1=H 1| H 1|aN21=( 50 a x 30 a y +20 a z ) 50 2 + 30 2 + 20 2 1 29(2ax+3ay4az) =0.21θ1=102°

Conclusion:

The angle between H1 and a^N21 is, θ1=102°.

Expert Solution
Check Mark
To determine

(f)

The angle between H2 and a^N21.

Answer to Problem 8.27P

The angle between H2 and a^N21 is, θ2=95°.

Explanation of Solution

Given Information:

The region 1 is 2x+3y4z>1 , and region 2 is 2x+3y4z<1.

   μr1=2μr2=5H1=50ax30ay+20azA/mHt2=54.83ax22.76ay+10.34azA/mHN2=1.93ax2.90ay+3.86azA/m

Calculation:

The unit normal vector:

   a^N21=129(2ax+3ay4az)

The magnetic field intensity:

   H2=Ht2+HN2=(54.83ax22.76ay+10.34az)+(1.93ax2.90ay+3.86az) =52.90ax25.66ay+14.20azA/m

The required angle,

   cosθ2=H 2| H 2|aN21=( 52.90 a x 25.66 a y +14.20 a z ) 50.9 2 + 25.66 2 + 14.20 2 1 29(2ax+3ay4az) =0.088θ2=95°

Conclusion:

The angle between H2 and a^N21 is, θ2=95°.

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Chapter 8 Solutions

Loose Leaf For Engineering Electromagnetics

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