A toroid having a rectangular cross section (a = 2.00 cm by b = 3.00 cm) and inner radius R = 4.20 cm consists of 500 turns of wire that carries a sinusoidal current I = I sin(wt), with Iy = 47.5 A and a frequency f = w/2n = 60.0 Hz. A coil that consistsof 20 turns of wire links with the toroid, as shown in the figure. Determine the emf induced in the coil as a function of time.v) cos(wt)a+R-

Given: Rectangular cross section is a=2 cm and b=3 cm Inner radius is 4.1 cm Imax=47.5 A Number of…

toroid having a rectangular cross section (a = 2.00 cm by D = 3.00 cm) and inner radius R = 44.20 cm consists of 500 turns of wire that carries a sinusoidal current / = max Sin(wt), with max= 47.5 A and a frequency = w/2t = 60.0 H of 20 turns of wire links with the toroid, as shown in the figure. Determine the emf induced in the coil as a function of time. A coll that consi Jv) cos(wt) -R-

toroid having a rectangular cross section (a = 2.00 cm by D = 3.00 cm) and inner radius R = 44.20 cm consists of 500 turns of wire that carries a sinusoidal current / = max Sin(wt), with max= 47.5 A and a frequency = w/2t = 60.0 H of 20 turns of wire links with the toroid, as shown in the figure. Determine the emf induced in the coil as a function of time. A coll that consi Jv) cos(wt) -R-

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Question

A toroid having a rectangular cross section (a = 2.00 cm by b = 3.00 cm) and inner radius R = 4.20 cm consists of 500 turns of wire that carries a sinusoidal current I = I sin(wt), with Iy = 47.5 A and a frequency f = w/2n = 60.0 Hz. A coil that consists
of 20 turns of wire links with the toroid, as shown in the figure. Determine the emf induced in the coil as a function of time.
v) cos(wt)
a
+R-

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