A rectangular coil of wire, 22.0 cm by 35.0 cm and carrying a current of 1.95 A , is oriented with the plane of its loop perpendicular to a uniform 1.50 T magnetic field (Figure 1). Part C The coil is rotated through a 30.0° angle about the axis shown, with the left side coming out of the plane of the figure and the right side going into the plane. Calculate the net force that the magnetic field now exerts on the coil. (Hint: In order to help visualize this three-dimensional problem, make a careful drawing of the coil when viewed along the rotation axis.) Express your answer with the appropriate units. F = Value Units Submit Reguest Answer • Part D Figure < 1 of 1 > Calculate the torque that the magnetic field now exerts on the coil. Express your answer with the appropriate units. Аxis HA I X Value Units T = 22.0 cm Submit Request Answer 35.0 сm
A rectangular coil of wire, 22.0 cm by 35.0 cm and carrying a current of 1.95 A , is oriented with the plane of its loop perpendicular to a uniform 1.50 T magnetic field (Figure 1). Part C The coil is rotated through a 30.0° angle about the axis shown, with the left side coming out of the plane of the figure and the right side going into the plane. Calculate the net force that the magnetic field now exerts on the coil. (Hint: In order to help visualize this three-dimensional problem, make a careful drawing of the coil when viewed along the rotation axis.) Express your answer with the appropriate units. F = Value Units Submit Reguest Answer • Part D Figure < 1 of 1 > Calculate the torque that the magnetic field now exerts on the coil. Express your answer with the appropriate units. Аxis HA I X Value Units T = 22.0 cm Submit Request Answer 35.0 сm
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