33. Assume that i = 10e-0.1 A (t in seconds). Calculate the flux d(t), at time t, of B through the isosceles triangle of base 12 cm and height 6 cm whose bottom edge is 3 cm from the wire, as in Figure 17. Assume the triangle is oriented with normal vector pointing out of the page. Use Fara- day's Law to determine the voltage drop around the triangular loop (the boundary of the triangle) at time t. Triangular wire B Volt meter -12 B B FIGURE 17 6

33. Assume that i = 10e-0.1 A (t in seconds). Calculate the flux d(t), at time t, of B through the isosceles triangle of base 12 cm and height 6 cm whose bottom edge is 3 cm from the wire, as in Figure 17. Assume the triangle is oriented with normal vector pointing out of the page. Use Fara- day's Law to determine the voltage drop around the triangular loop (the boundary of the triangle) at time t. Triangular wire B Volt meter -12 B B FIGURE 17 6

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Question

33. Assume that i = 10e-0.1 A (t in seconds). Calculate the flux d(t), at
time t, of B through the isosceles triangle of base 12 cm and height 6 cm
whose bottom edge is 3 cm from the wire, as in Figure 17. Assume the
triangle is oriented with normal vector pointing out of the page. Use Fara-
day's Law to determine the voltage drop around the triangular loop (the
boundary of the triangle) at time t.
Triangular wire
B
Volt meter
-12
B
B
FIGURE 17
6

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