Two long straight parallel wires carry currents of 8.5 A in opposite directions, as shown in...
Two long straight wires are parallel and 11 cm apart. They are to carry equal currents such that the magnetic field at a point halfway between them has magnitude 440 �T. How much current (in A) is needed?
Two very long straight parallel wires each carry currents as shown in the figure a point P is located as shown. A) what is the magnitude of the magnetic field at point P? B) Ab electron passing through point P feels a forced out of the page. Which of the directions left, right, up, down, into, or out of the page that the electron can move that will generate a force out of the page on the electron at point...
Two straight parallel wires carry currents in opposite directions as shown in the figure. One of the wires carries a current of I2 = 10.8 A. Point A is the midpoint between the wires. The total distance between the wires is d = 12.1 cm. Point C is 5.29 cm to the right of the wire carrying current 12. Current 11 is adjusted so that the magnetic field at C is zero. Calculate the value of the current 11. Submit...
Two straight parallel wires carry currents in opposite directions as shown in the figure. One of the wires carries a current of l, = 11.5 A Point A is the midpoint between the wires. The total distance between the wires is d = 10.5 cm. Point C is 4.78 cm to the right of the wire carrying current 12. Current I is adjusted so that the magnetic field at C is zero. Calculate the value of the current 11. 3.68x101...
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...
2 Two straight parallel wires carry currents in opposite directions as shown in the figure. One of the wires carries a current of I2 11.4 A. Point A is the midpoint between the wires. The total distance between the wires is d -12.4 cm. Point Cis 4.68 cm to the right of the wire carrying current I2. Current I1 is adjusted so that the magnetic field at C is zero. Calculate the value of the current I attA Tries 0/99...
2. Two long, parallel, straight wires, separated by 12 cm, carry currents in opposite directions. If the currents are I. = 3 amps and 1. = 5 amps, find the magnitude and direction of the magnetic field at a point 3 cm to the left of the wire carrying 3 amps. H 12 cm . For all problems, assume [g] = 9.81 m/s?.
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)
Two straight parallel wires carry currents in opposite directions as shown in the figure. One of the wires carries a current of I2 = 11.5 A. Point A is the midpoint between the wires. The total distance between the wires is d = 10.2 cm. Point C is 5.75 cm to the right of the wire carrying current I2. Current I1 is adjusted so that the magnetic field at C is zero.A. Calculate the value of the current I1.B. Calculate...
5. (5 points) Two very long, straight parallel wires carry currents of equal magnitude, but opposite direction, perpendicular to the paper in the directions shown in the Figure. The direction of the net magnetic field due to these two wires at point a, which is equidistant from both wires, is 1O Current out of page I ⓧ Current into page (a) directly to the right (b) directly to the left (c) straight downward (d) straight upward