3. Two wires are located 25cm apart as shown. Find the current in the left wire...
l wo current-carrying wires are located 12.5 cm apart, as shown below. The wire on the left carries a current of 562 mA out of the page and wire on the right carries a current of 378 mA into the page. P is 8.7 cm directly above the right wire. What is the magnitude and direction of the magnetic field at Point P? Express the direction as an angle relative to the +z-axis.
9. Wire 1 and wire 2 are two parallel, horizontal wires. The current in wirel is SA moving to the left, and the current in wire 2 is 10 A, moving to the right. The wires are 15 cm apart, the point P is 5 cm from wire 1. point Q is 5 cm from wire 2, and point R is 5 cm from both point and wire 2. -P Scm SA wire 1 Sem 5cm -R 5cm 10A OE...
Two long parallel wires are held fixed at 5.4 m apart. The left one carries a current of 3.9 A and the right one 10 A in the same direction. How far from left wire is the point where the magnetic field is zero?
Problem 3 Two wires each carry 150.0 A of current and 1.2 cm apart. (a) Calculate the magnetic field 20 cm away at point 0, in the plane of the wire. (b) A current produces a magnetic field, and a magnetic field exerts a force on a current (wire). Therefore, two current-carrying wires will exert forces on each other. Illustrate the magnetic forces between the wires on figure 1 below. 0 20 cm I 12
Two long parallel wires are 3.2 cm apart from one another. the current in wire A is 5.8A, wire B is 7.2A borh into the page. find magnitude and direction of the magnetic field at a point halfway between A and B. include diagram of set up
#3 Two long wires carry currents of identical magnitude, one current is directed to the left, and the other is to the right. At a point exactly between the wires, the currents generate a magnetic field of intensity 0.015 T directed into the page. Find the current, and direction of the current in each wire.
Two long, thin parallel wires are placed 12.0 cm apart, as shown below. Each wire carries a 28 A current, but the currents are flowing in opposite directions. Determine the magnetic field vector at the point P, which is 10.4 cm from one wire, and 6.0 cm from the other. Please help me find the magnitude and the direction (θ).
a) a horizontal long straight wire carries a current of I1= 8A from left to right. The wire is tangential to a circular loop of wire of Radius R= .03 m lying immediately below it. The loop carries a current of l2= 2A in the counter clockwise direction. Assuming that the thickness of the wires are negligible, find the magnitude and direction of the net magnetic field at the center of the circular loop b) a second long wire also...
A. Two long wires are carrying equal, but opposite-direction current I are located a distance d apart along the y-axis. Write an expression for the magnetic field B, produced by each wire, at point P, which is equidistant from the wires and a distance R from the plane which contains them. i. ii. 2u, Id Show that the net magnetic field at point P is given by B=- -î . T(4R+d?)
Two wires each carry 150.0 A of current and 1.2 cm apart. (a) Calculate the magnetic field 20 cm away at point 0, in the plane of the wire. (b) A current produces a magnetic field, and a magnetic field exerts a force on a current (wire). Therefore, two current-carrying wires will exert forces on each other. Illustrate the magnetic forces between the wires on figure 1 below. *0 20 cm I 12 Figure 1