Magnetic Field Each figure below shows two long straight wires carrying equal currents into or out...
The figure below shows two long parallel, straight wires
carrying currents, I1 = 38 A and I2 = 70 A. The distance between
the wires is 18 m. What is the magnitude of the magnetic field (in
nT) at point A , which is at a distance of 4 m from wire #1?
The figure below shows two long parallel, straight wires carrying currents, 14 = 38 A and I2 = 70 A. The distance between the wires is 18...
The figure below shows two long parallel, straight wires carrying currents, I1 = 1 A and I2 = 49 A. The distance between the wires is 16 m. What is the magnitude of the magnetic field in nT) at point A, which is at a distance of 2 m from wire #1? (in units of nT or nanoteslas) Tries 0/2 Submit Answer Which direction does the magnetic field point at location A (due to both wires)? Submit Answer Tries 0/2
The figure below shows two long, straight wires carrying currents I_1 =1.80 A and I_2 = 5.50 A into the page. The wires are separated by a distance a = 1.30 m. (a) What are the magnitude and direction of the magnetic field at point A, halfway between the two wires? magnitude 1.14 mu T direction 0 degree counterclockwise from the +x axis (b) What are the magnitude and direction of the magnetic field at point B, at a distance...
1) Two very-long current-carrying wires are perpendicular to the plane of the page, with the currents in the directions shown. The distance between the wires is d. The point marked with an x is a distance d directly above the right wire. a) On the figure on your answer sheet, indicate the directions at x of the two fields By and BR due to the two wires. Be sure to label your fields. b) On the figure on your answer...
hw help plz.
The figure below shows two long, straight wires carrying currents 1, - 1.50 A and 12 - 8.50 A into the page. The wires are separated by a distance a 1.20 m. (a) What are the magnitude and direction of the magnetic field at point A, halftway between the two wires? magnitude 2.33-6 direction atont non Your response differs significantly from the correct answer Rework your solution from the beginning and check each step carefully. HT counterclockwise...
3) Current-carrying Straight Wires - Magnetic Field Nearby In these cases, long, straight wires that are perpendicular to the page are carrying electric currents into the page. Wire W Wire W Wire W- --Wire W 2 AP 2A 2A 2A P P ZAP tong sampung ----- ---- his 0 eded Rank the strength (magnitude) of the magnetic field at P due to wire W. Explain your reasoning. @ BM --- 12501 01 1291893 moitalnomgoz stw od no 90101 pisongsmodi to...
The figure below shows a cross-section of two long, straight,
parallel wires, where the currents are flowing perpendicular to the
page. Wire 1 carries a current
I1
directed into the page (in the
−z
direction) and passes through the x-axis at
x = +a.
Wire 2 passes through the x-axis at
x = −2a
and carries an unknown current
I2.
The total magnetic field at the origin due to the
current-carrying wires has the magnitude
2μ0I1
(2πa)
. Note that...
its
not c
Question 2 (1 point) wires igure shows two long wires carrying equal currents flowing in opposite directions. Which of the arrows labeled A through D correctly represents the direction of the magnetic field due to the wires at a point located at an equal distance d from each wire? O B O A Save
The following figure shows two long straight wires each carrying
4 Amperes of electric current with outward direction from the page
of paper. The two wires are so far apart d1 = 6 m. Point P is d2 =
4 m from the midpoint of the two wires
a. Draw the direction of the magnetic field at the P point of
each wire.
b. Calculate the total magnitude of the total magnetic field at
the point P of the two...
Two long, straight wires carry equal currents of 0.56 A. The two wires are parallel to each other and carry parallel currents. What is the magnetic field at a midpoint between the two wires, if the wires are 0.5 cm apart? The magnetic field of a long, straight wire is: B=(μ_0 i)/2πr What is the force per unit length of one of the wires in number 2 on the other? Please show the derivation for the second equation used (u0*i1*i2/2pir)