The bent wire circuit shown in the figure is in a region ofspace with a uniform
ID: 1667108 • Letter: T
Question
The bent wire circuit shown in the figure is in a region ofspace with a uniform magnetic field in the +z direction.Current flows through the circuit in the direction indicated. Notethat segments 2 and 5 are oriented parallel to the z axis;the other pieces are parallel to either the x or yaxis. 1.) Determine the direction of the magnetic forcealong segment 1, which carries current in the -xdirection. Enter the direction of the force as asign (+ or -) followed by a coordinatedirection (x, y, or z) withoutspaces. For instance, if you think that the force points in thepositive y direction, enter +y. If there is nomagnetic force, enter 0. Determine the direction of the magnetic forcealong segment 1, which carries current in the -xdirection. Enter the direction of the force as asign (+ or -) followed by a coordinatedirection (x, y, or z) withoutspaces. For instance, if you think that the force points in thepositive y direction, enter +y. If there is nomagnetic force, enter 0. 2.) Determine the direction of the magnetic forcealong segment 2, which carries current in the -zdirection. Enter the direction of the force as asign (+ or -) followed by a coordinatedirection (x, y, or z) withoutspaces. For instance, if you think that the force points in thepositive y direction, enter +y. If there is nomagnetic force, enter 0. Determine the direction of the magnetic forcealong segment 2, which carries current in the -zdirection. Enter the direction of the force as asign (+ or -) followed by a coordinatedirection (x, y, or z) withoutspaces. For instance, if you think that the force points in thepositive y direction, enter +y. If there is nomagnetic force, enter 0. 3.) Determine the direction of the magnetic forcealong segment 3, which carries current in the +ydirection. Enter the direction of the force as asign (+ or -) followed by a coordinatedirection (x, y, or z) withoutspaces. For instance, if you think that the force points in thepositive y direction, enter +y. If there is nomagnetic force, enter 0. Determine the direction of the magnetic forcealong segment 3, which carries current in the +ydirection. Enter the direction of the force as asign (+ or -) followed by a coordinatedirection (x, y, or z) withoutspaces. For instance, if you think that the force points in thepositive y direction, enter +y. If there is nomagnetic force, enter 0. 4.) Determine the direction of the magnetic forcealong segment 4, which carries current in the +xdirection. Enter the direction of the force as asign (+ or -) followed by a coordinatedirection (x, y, or z) withoutspaces. For instance, if you think that the force points in thepositive y direction, enter +y. If there is nomagnetic force, enter 0. Determine the direction of the magnetic forcealong segment 4, which carries current in the +xdirection. Enter the direction of the force as asign (+ or -) followed by a coordinatedirection (x, y, or z) withoutspaces. For instance, if you think that the force points in thepositive y direction, enter +y. If there is nomagnetic force, enter 0. 5.) Determine the direction of the magnetic forcealong segment 5, which carries current in the +zdirection. Enter the direction of the force as asign (+ or -) followed by a coordinatedirection (x, y, or z) withoutspaces. For instance, if you think that the force points in thepositive y direction, enter +y. If there is nomagnetic force, enter 0. Determine the direction of the magnetic forcealong segment 5, which carries current in the +zdirection. Enter the direction of the force as asign (+ or -) followed by a coordinatedirection (x, y, or z) withoutspaces. For instance, if you think that the force points in thepositive y direction, enter +y. If there is nomagnetic force, enter 0. 6.) Determine the direction of the magnetic forcealong segment 6, which carries current in the +xdirection. Enter the direction of the force as asign (+ or -) followed by a coordinatedirection (x, y, or z) withoutspaces. For instance, if you think that the force points in thepositive y direction, enter +y. If there is nomagnetic force, enter 0. Determine the direction of the magnetic forcealong segment 6, which carries current in the +xdirection. Enter the direction of the force as asign (+ or -) followed by a coordinatedirection (x, y, or z) withoutspaces. For instance, if you think that the force points in thepositive y direction, enter +y. If there is nomagnetic force, enter 0. 7.) Determine the direction of the magnetic forcealong segment 7, which carries current in the -ydirection. Enter the direction of the force as asign (+ or -) followed by a coordinatedirection (x, y, or z) withoutspaces. For instance, if you think that the force points in thepositive y direction, enter +y. If there is nomagnetic force, enter 0. Determine the direction of the magnetic forcealong segment 7, which carries current in the -ydirection. Enter the direction of the force as asign (+ or -) followed by a coordinatedirection (x, y, or z) withoutspaces. For instance, if you think that the force points in thepositive y direction, enter +y. If there is nomagnetic force, enter 0.Explanation / Answer
Part D: -y
Part E: 0
Part F: -y
Part G: -x
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