Engineering Electromagnetics
Engineering Electromagnetics
9th Edition
ISBN: 9780078028151
Author: Hayt, William H. (william Hart), Jr, BUCK, John A.
Publisher: Mcgraw-hill Education,
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Chapter 8, Problem 8.18P
To determine

(a)

The vector torque on the given square loop.

Expert Solution
Check Mark

Answer to Problem 8.18P

The vector torque on the square loop is, T=0.96axNm.

Explanation of Solution

Given Information:

Square loop is given as,.

Engineering Electromagnetics, Chapter 8, Problem 8.18P , additional homework tip  1.

The torque is about the origin A(0,0,0) in the field B=100aymT ..

Calculation:

The area of loop,

   S=(2(2))ax×(2(2))ay=16azm2.

The field given is uniform. So, the torque about any origin is independent to that origin point.

Thus, the torque about A(0,0,0).

   T=(IS)×B=0.6(16az)×(100ay)103=0.96axNm.

Conclusion:

The vector torque on the square loop is, T=0.96axNm.

To determine

(b)

The vector torque on the given square loop.

Expert Solution
Check Mark

Answer to Problem 8.18P

The vector torque on the square loop is, T=0.96ax+1.92ayNm.

Explanation of Solution

Given Information:

Square loop is given as,.

Engineering Electromagnetics, Chapter 8, Problem 8.18P , additional homework tip  2.

The torque is about the origin A(0,0,0) in the field B=200ax+100aymT ..

Calculation:

The area of loop,

   S=(2(2))ax×(2(2))ay=16azm2.

The field given is uniform. So, the torque about any origin is independent to that origin point.

Thus the torque about A(0,0,0) ,

   T=(IS)×B=0.6(16az)×(200ax+100ay)103=0.96ax+1.92ayNm.

Conclusion:

The vector torque on the square loop is, T=0.96ax+1.92ayNm.

To determine

(c)

The vector torque on the given square loop.

Expert Solution
Check Mark

Answer to Problem 8.18P

The vector torque on the square loop is, T=0.96ax+1.92ayNm.

Explanation of Solution

Given Information:

Square loop is given as,.

Engineering Electromagnetics, Chapter 8, Problem 8.18P , additional homework tip  3.

The torque is about the origin A(1,2,3) in the field B=200ax+100ay300azmT ..

Calculation:

The area of loop,

   S=(2(2))ax×(2(2))ay=16azm2.

The field given is uniform. So, the torque about any origin is independent to that origin point.

Thus the torque about A(1,2,3) ,

   T=(IS)×B=0.6(16az)×(200ax+100ay300az)×103=0.96ax+1.92ayNm.

Conclusion:

The vector torque on the square loop is, T=0.96ax+1.92ayNm.

To determine

(d)

The vector torque on the given square loop.

Expert Solution
Check Mark

Answer to Problem 8.18P

The vector torque on the square loop is, T=0.96ax+2.64ay1.44azNm.

Explanation of Solution

Given Information:

Square loop is given as,.

Engineering Electromagnetics, Chapter 8, Problem 8.18P , additional homework tip  4

The torque is about the origin A(1,2,3) in the field B=200ax+100ay300azmT for x2 and B=0 elsewhere..

Calculation:

Since the magnetic field is present only for x2 , the force is acting only on theydirected segment at x=2 ..

The differential force,

   dF=(IdL)×B=0.6(dyay)×(200ax+100ay300az)×103=(0.18ax0.12az)dy.

The position vector of any point in the segment, relative to given origin,

   R=(2,y,0)(1,2,3)=ax+(y2)ay3az.

So, the differential torque,

   dT=R×dF=(ax+(y2)ay3az)×(0.18ax0.12az)dy=(0.12(y2)ax+0.66ay+0.18(y2)az)dy.

The total torque,

   T=dT=22(0.12(y2)ax+0.66ay+0.18(y2)az)dy=0.12[y222y]22ax+0.66[y]22ay+0.18[y222y]22az=0.96ax+2.64ay1.44azNm.

Conclusion:

The vector torque on the square loop is, T=0.96ax+2.64ay1.44azNm.

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