The square loop has sides of length 0.5 m, and carries current loop= 5 Amps. When viewed from the side (left part of the figure), the plane of the current loop makes an angle of 8 = 32.00 degrees with the axis of the solenoid. The current is going into the page on the top right segment of the square loop (designated by an "x" with a circle around it), and the current is coming out of the page on the bottom left segment of the square loop (designated by a dot with a circle around it). When viewed from above (right panel of figure), the current loop does not look square because the loop is tilted at angle & as shown in the left panel. The solenoid carries a current Isol = 32 Amps, is 3 meters long, and has 250 turns per meter. The direction of the current in the solenoid produces a magnetic field that points up on the page. d) What is the magnetic field within the solenoid, due to the current in the solenoid (i.e. you should ignore the magnetic field from the square current loop in answering this question)? 0.01005 e) What is the magnetic torque on the current loop? 0.0106536 Nm f) What is the direction of the torque on the current loop? O To the left on the page O To the right on the page. O Into the page. O Towards the top of the page O Out of the page O Can't be determined from the information provided Towards the bottom of the page X ✓ Tesla
The square loop has sides of length 0.5 m, and carries current loop= 5 Amps. When viewed from the side (left part of the figure), the plane of the current loop makes an angle of 8 = 32.00 degrees with the axis of the solenoid. The current is going into the page on the top right segment of the square loop (designated by an "x" with a circle around it), and the current is coming out of the page on the bottom left segment of the square loop (designated by a dot with a circle around it). When viewed from above (right panel of figure), the current loop does not look square because the loop is tilted at angle & as shown in the left panel. The solenoid carries a current Isol = 32 Amps, is 3 meters long, and has 250 turns per meter. The direction of the current in the solenoid produces a magnetic field that points up on the page. d) What is the magnetic field within the solenoid, due to the current in the solenoid (i.e. you should ignore the magnetic field from the square current loop in answering this question)? 0.01005 e) What is the magnetic torque on the current loop? 0.0106536 Nm f) What is the direction of the torque on the current loop? O To the left on the page O To the right on the page. O Into the page. O Towards the top of the page O Out of the page O Can't be determined from the information provided Towards the bottom of the page X ✓ Tesla
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