parallelogram pictured. The magnetic field lies in the plane of the page and points up. Determine the net force and the net torque on the loop, if the magnitude of magnetic field is 2.5 T. | = 10A 8.0 cm 60° - 10 cm- Hint Review Section 11.5 Force and Torque on a Current Loop. Note that the formula for magnetic torque on a magnetic dipole, Eq. 11.22, even though it was derived for the rectangular loop, the formula is correct for current loops of any shape, including a parallelogram (segment-by-segment analysis is trickier for the parallelogram, so take care if you are doing that). As for the net force, what is the net force on a current loop in a uniform magnetic field? (If necessary, do the segment-by-segment analysis for this.) The magnitude of the net force is |N, and the magnitude of the net torque is

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The image displays a problem involving a current loop in a magnetic field. The loop is a parallelogram with given dimensions and current. The task is to find the net force and net torque on the loop with a magnetic field of 2.5 T. **Diagram Details:** - A parallelogram is shown with a side length of 8.0 cm and a base of 10 cm. - The current \( I \) in the loop is 10 A. - The angle inside the parallelogram is 60°. - A magnetic field \( \mathbf{B} \) is directed upwards, perpendicular to the loop's plane. **Instructions:** - Review section 11.5 on Force and Torque for a current loop. - Despite deriving the formula for a rectangular loop, the formula applies to any loop shape, including a parallelogram. - Determine the net force and torque, considering possible segment-by-segment analysis. - Input the calculated values for net force in Newtons and net torque in Newton-meters in the provided fields. **Input Fields:** - Net force: \( \boxed{}\) N - Net torque: \( \boxed{}\) N·m