Two long, straight, conducting wires are both perpendicular to the xyxy-plane. Wire 1 passes through the point xx = 0, yy = 1.00 cmcm, zz = 0 and carries current 1.00 AA in the +zz-direction. Wire 2 passes through the point xx = 0, y = -1.00 cmcm, zz = 0 and carries current 4.00 AA also in the +zz-direction. Find the net magnetic field due to both wires at xx = 0, yy = 0, zz = 0.
Two long, straight, conducting wires are both perpendicular to the xyxy-plane. Wire 1 passes through the...
Question 20 (7 points) Two long straight wires carry currents perpendicular to the xy-plane. One wire carries a current of 50 A and passes through the point x = 5.0 cm on the x-axis. The second wire has a current of 80 A and passes through the point y = 4.0 cm on the y- axis. What is the magnitude of the resulting magnetic field at the origin? 200 ut 300 uT 400 uT 450 uT 600 uT
Two infinitely long wires run parallel to the z axis. One wire passes through the point (x,y) = (h/2, 0) and carries a current of I A] in the z direction. The other wire passes through the point (x.y)- (-h/2,0) and carries a current-I [A] in the z direction. Calculate the magnetic field vector H(xy) [A/m] at any point in space. Express the answer in rectangular coordinates. Hint: Use superposition together with Ampere's law. Also, you might want to review...
Two very long, straight, parallel wires carry currents that are directed perpendicular to the page as shown in Figure P30.9. Wire 1 carries a current 1. into the page (in the -z direction) and passes through the x axis at x = -2a. Wire 2 passes through the x axis at x = -+a and carries an unknown current 12. The total magnetic field at the origin due to the current-carrying wires has the magnitude 2PoIi / ( 2 pira...
Assigned as Question 15 Two long straight wires, parallel to one another, each pass through the x axis. Both wires are perpendicular to the axis. Wire 1 carries a current of 3 A into the page, and passes through x--2.0 m. Wire 2 carries a current of 1 A into the page, and passes through x-0.0 m. At what point on the x axis, a finite distance from the wires, is the net magnetic field equal to zero? Atx- 3.0...
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...
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...
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
. In the figure, two long and straight conductors are parallel to the z-axis and carry currents of 1 -20.0A and 1 15.0 A in opposite directions. Conductor 1 passes through (0, 0) while conductor 2 passes through 3.00 m, 0). (a) Find the location of the point where the net magnetic field due to the conductors is zero. (b) Suppose a third parallel conductor carrying a current of I,-10.0 A (same direction as Is) is placed where it passes...
1) [7 marks] A long straight wire hangs vertically through the middle of a metal basketball hoop of radius R = 23.0 cm. The hoop is horizontal. The wire carries a current of I = 1.56 A, moving vertically upward from the ground toward the sky. a) Sketch the magnetic field inside the hoop, as viewed from above it. b) What is the magnitude of the magnetic field at the hoop's location? c) Is there a net magnetic flux through...