Electron current XA A wire through which a current is flowing lies along the x-a

Question

Electron current XA A wire through which a current is flowing lies along the x-axis as shown. Connecting wires which are not shown in the diagram connect the ends of the wire to batteries (which are also not shown). Electron current flows through the wire in the -x direction, as indicated in the diagram. To calculate the magnetic field at location A due to the current in the wire, we divide the wire into pieces, approximate each piece as a point charge moving in the direction of conventional current, and calculate the magnetic field at the observation location due only to this piece; then add the contributions of all pieces to get the net magnetic field The wire is 1.6 m long, and is divided into 8 pieces. The observation location A is located at 0.1, 0.22, 0 > m. The conventional current running through the wire is 7.5 amperes. In this exercise you will calculate the magnetic field at the observation location due only to segment 3 of the wire. What is the direction of conventional current in this wire? Select How long is segment 37

Explanation / Answer

lengt of the wire, L=1.6 m

curent in the wire, I=7.5 A

a)

+ve x- axis

b)

length of the segment wire, l=L/8

l=1.6/8

l=0.2 m

c)

magnitude of l=0.2 m

d)

vector l=(x, y, z) =(0.2, 0, 0)

e)

center of location, xcm=-(l+l/2)

xcm=-(0.2+0.2/2)

xcm=-0.3m

(xcm, ycm, Zcm)=(-0.3, 0, 0)

f)

r=(x1, y1, z1)=(0.1, 0.22, 0)

r=(x1-xcm, y1-ycm, z1-zcm)

r=(0.1-(-0.3), 0.22, 0)

r=(0.4, 0.22, 0)

g)

unit vector of r=(0.4i + 0.22j+0k)/(sqrt(0.4^2 +0.22^2+0^2)

r=(0.876i+0.482j+0k)

h)

cross product, dlXr=(0.2*0.482)

=0.0964

I)

B=(uo/4pi)*i*(dlXr)/r^2

B=10^-7*(7.5*(0.0964/(0.4^2 +0.22^2)

B=3.47*10^-7 T

Related Questions

Navigate

• Browse (All)
• Browse E
• Subjects

---

---

Integrity-first tutoring: explanations and feedback only — we do not complete graded work. Learn more.