Two VERY LONG wires are placed along parallel lines as shown below in the picture. The wire ON THE LEFT (at X1= 0) has a current going out of the page of value, I1 = 4 A. The current on the RIGHT (at X2= d) has a current going into the page of the page of value, I2 = 6 A. The point "P is at the location (x=6.00cm, z=10.4cm) d Wire 1 Wire 2 a. Find the magnitude of the magnetic field due to wire 2 at the location of wire 1 The Biot-Savart law say the direction of the magnetic field at a field point located in a direction î (from source to field point) where a source wire carries a current in the direction i is f xÎ b. Find the unit directions for f and Î and perform the cross product to determine the direction of the magnetic field due to wire2 at the location of wire1. c. Using the formula format -= 1, · I, x B. find the force per unit length in "I.j,k"

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Chapter1: Units, Trigonometry. And Vectors
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Two VERY LONG wires are placed along parallel lines
as shown below in the picture.
LEFT (at X1= 0) has a current going out of the
page of value, li = 4 A. The current on the RIGHT
(at X2= d) has a current going into the page of the
page of value, 2 = 6 A. The point "P" is at the
location (x=6.00cm, z=10.4cm)
The wire ON THE
d
d
d
Wire 1
Wire 2
a. Find the magnitude of the magnetic field due to
wire 2 at the location of wire 1
The Biot-Savart law say the direction of the magnetic field at a field point located in a
direction f (from source to field point) where a source wire carries a current in the
direction î is î X Î
b. Find the unit directions for î and Î and perform the cross product to determine
the direction of the magnetic field due to wire2 at the location of wire1.
c. Using the formula
format
find the force per unit length in “I.j,k"
d. Find the magnitude of the magnetic field due to wire2 at the location of field point
P
e. Find the unit directions for f and Î and perform the cross product to determine
the direction of the magnetic field due to wire2 at the location of field point P.
f. Find the magnitude of the magnetic field due to wire1 at the location of field point
g. Find the unit directions for f and î and perform the cross product to determine
the direction of the magnetic field due to wire1 at the location of field point P
h. Find the Total B field at the field point P in "I, j, k" format
Transcribed Image Text:Two VERY LONG wires are placed along parallel lines as shown below in the picture. LEFT (at X1= 0) has a current going out of the page of value, li = 4 A. The current on the RIGHT (at X2= d) has a current going into the page of the page of value, 2 = 6 A. The point "P" is at the location (x=6.00cm, z=10.4cm) The wire ON THE d d d Wire 1 Wire 2 a. Find the magnitude of the magnetic field due to wire 2 at the location of wire 1 The Biot-Savart law say the direction of the magnetic field at a field point located in a direction f (from source to field point) where a source wire carries a current in the direction î is î X Î b. Find the unit directions for î and Î and perform the cross product to determine the direction of the magnetic field due to wire2 at the location of wire1. c. Using the formula format find the force per unit length in “I.j,k" d. Find the magnitude of the magnetic field due to wire2 at the location of field point P e. Find the unit directions for f and Î and perform the cross product to determine the direction of the magnetic field due to wire2 at the location of field point P. f. Find the magnitude of the magnetic field due to wire1 at the location of field point g. Find the unit directions for f and î and perform the cross product to determine the direction of the magnetic field due to wire1 at the location of field point P h. Find the Total B field at the field point P in "I, j, k" format
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