The bent wire circuit shown in the figure (Eigure 1) is in a region of space with a uniform magnetic field in the +2 direction. Current flows through the circuit in the direction indicated. Note that segments 2 and 5 are oriented parallel to the z axis: the other pieces are parallel to either the x or y axis. igure 1 1 of 1 ▾ Part A Determine the direction of the magnetic force along segment 1, which carries current in the direction. Enter the direction of the force as a sign (+ or -) followed by a coordinate direction (x, y, or z) without spaces. For instance, if you think that the force points in the positive y direction, enter +y. If there is no magnetic force, enter 0. View Available Hint(s) Submit Part B Determine the direction of the magnetic force along segment 2, which carries current in the -z direction. Enter the direction of the force as a sign (+ or -) followed by a coordinate direction (x, y, or z) without spaces. For instance, if you think that the force points in the positive y direction, enter +y. If there is no magnetic force, enter 0. > View Available Hint(s) Submit ▾ Part C Determine the direction of the magnetic force along segment 3, which carries current in the ty direction. Enter the direction of the force as a sign (+ or -) followed by a coordinate direction (x, y, or 2) without spaces. For instance, if you think that the force points in the positive y direction, enter +y. If there is no magnetic force, enter 0.

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▼ Part C Determine the direction of the magnetic force along segment 3, which carries current in the ty direction. Enter the direction of the force as a sign (+ or -) followed by a coordinate direction (x, y, or z) without spaces. For instance, if you think that the force points in the positive y direction, enter +y. If there is no magnetic force, enter 0. ▸ View Available Hint(s) Submit Part D Determine the direction of the magnetic force along segment 4, which carries current in the +x direction. Enter the direction of the force as a sign (+ or -) followed by a coordinate direction (x, y, or z) without spaces. For instance, if you think that the force points in the positive y direction, enter +y. If there is no magnetic force, enter 8. Submit Request Answer Part E Determine the direction of the magnetic force along segment 5, which carries current in the +z direction. Enter the direction of the force as a sign (+ or -) followed by a coordinate direction (x, y, or z) without spaces. For instance, if you think that the force points in the positive y direction, enter +y. If there is no magnetic force, enter 8.

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Magnetic Force on a Bent Wire Conceptual Question The bent wire circuit shown in the figure (Figure 1) is in a region of space with a uniform magnetic field in the +z direction. Current flows through the circuit in the direction indicated. Note that segments 2 and 5 are oriented parallel to the z axis; the other pieces are parallel to either the x or y axis. Figure 3 4 1 6 7 +X < 1 of 1 > Part A Submit Determine the direction of the magnetic force along segment 1, which carries current in the -x direction. Enter the direction of the force as a sign (+ or -) followed by a coordinate direction (x, y, or z) without spaces. For instance, if you think that the force points in the positive y direction, enter +y. If there is no magnetic force, enter 0. ▸ View Available Hint(s) Part B 9 of 21 Submit Review | Constants Determine the direction of the magnetic force along segment 2, which carries current in the -z direction. Enter the direction of the force as a sign (+ or -) followed by a coordinate direction (x, y, or z) without spaces. For instance, if you think that the force points in the positive y direction, enter +y. If there is no magnetic force, enter 0. ▶ View Available Hint(s) ▼ Part C Determine the direction of the magnetic force along segment 3, which carries current in the +y direction. Enter the direction of the force as a sign (+ or -) followed by a coordinate direction (x, y, or z) without spaces. For instance, if you think that the force points in the positive y direction, enter +y. If there is no magnetic force, enter 0. ▸ View Availahle Hintis) >