part two; As shown below, there are two concentric silver wire loops; a 5 cm radius loop and a 43 cm radius loop. The cr

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part two; As shown below, there are two concentric silver wire loops; a 5 cm radius loop and a 43 cm radius loop. The cross-sectional area of each wire is 0.006 m2. The current in the larger loop goes from a counterclockwise 5.8 A to 0 A in 9.7 10-4 s. Find the voltage & current in the smaller loop during the stated time interval. Assume the B-field of the larger loop is uniform (though not constant) across the smaller loop.
the Resistivity of silver is 1.59x 10-8

Part Two As Shown Below There Are Two Concentric Silver Wire Loops A 5 Cm Radius Loop And A 43 Cm Radius Loop The Cr 1 (52.64 KiB) Viewed 35 times

The charge vs. time graph below is for the capacitor in an LC circuit with C-2 F. Use this graph to fill in the table. Q (C) 0.5 -0.5 A 13 30 15 60 75 90 Qmax (C) 60 O T (s) f (Hz) 0.0167 t(s) Imax (A) V-278-3 V 1-3341 3462 A current direction counterclockwise 0.1047 0.25 Etotal (J) L (H) As shown below, there are two concentric silver wire loops; a 5 cm radius loop and a 43 cm radius loop. The cross-sectional area of each wire is 0.006 m². The current in the larger loop goes from a counterclockwise 5.3 A to 0 A in 9.7 x 10s. Find the voltage & current in the smaller loop during the stated time interval. Assume the B-field of the larger loop is uniform (though not constant) across the smaller loop. 1.1554