- Faraday Law H 1 0 D D D 1 I Final Situation Initial Situation This Problem Is Shown In Figure 1 The Straight Wire 1 (41.14 KiB) Viewed 72 times
This problem is shown in (Figure 1) The straight wires carrying the currents 11 and 12 and the tightly wound flat coil of conducting wire all lie in the plane of the page. d=0.33 m, 11 = 9.0 A 12 = 3.6 A Mo = 41 x 10-7T·m/A. The change from the initial situation to the final situation happens in a time interval of 0.015 seconds. The small coil has 106 turns, its cross-sectional area is 0.0012 m2 Part A - In the IINITIAL situation on the left side, only current 14 is present. At the location of the small coil, what is the direction of the magnetic field B, produced by 11? Part B - In the IINITIAL situation on the left side, only current 1, is present. At the location of the small coil, what is the magnitude of the magnetic field B1 produced by 11? Use scientific notation 1.234 · 10h, unit is Tesla. V AEO ? magnitude B1 = T Submit Previous Answers Request Answer X Incorrect; Try Again; 5 attempts remaining
Part D - In the FINAL situation on the right side, at the location of the small coil,, what is the magnitude of the magnetic field B, produced by 12? Use scientific notation 1.234 · 10h, unit is Tesla. ΤΕΙ ΑΣφ ? magnitude B2 = T Submit Request Answer Part E - In the FINAL situation on the right side, In addition to the currently the same as in the Initial situation), currently is also present. At the location of the small coil, what is the direction of the NET magnetic field Bnet produced by 14 and 122 Part F - In the FINAL situation on the right side, In addition to the currently the same as in the Initial situation), currently is also present. At the location of the small coil, what is the magnitude of the NET magnetic field Bnet produced by 14 and 122 Use scientific notation 1.234 · 10h, unit it Tesla. ► View Available Hint(s) ΟΙ ΑΣφ ? magnitude Bnet = T Submit
Part G - Calculate the magnitude of the induced emf. Use regular numbers with 3 dgits after the decimal point. Unit is volt. View Available Hint(s) ΡΕΙ ΑΣφ 3) ? Induced emf = V Submit