A cylinder with a(n) 1.6 cm radius and a length of 3.9 m is tightly wrapped with 4000 turns of wire. The current in the wire is decaying according to I = Io eat, with Io = 1.1 A and a = 4.3s¹. What is the electric field at a point 5.9 cm radially from the axis of the cylinder at t = 0.581395 s? Answer in units of V/m. A coil of 320 turns and radius 9.5 cm is con- centric with and in the central plane of the cylinder. How much power is being dissipated at t = 0.348837 s in a 80 2 resistor connected across the ends of the coil? Answer in units of W.
A cylinder with a(n) 1.6 cm radius and a length of 3.9 m is tightly wrapped with 4000 turns of wire. The current in the wire is decaying according to I = Io eat, with Io = 1.1 A and a = 4.3s¹. What is the electric field at a point 5.9 cm radially from the axis of the cylinder at t = 0.581395 s? Answer in units of V/m. A coil of 320 turns and radius 9.5 cm is con- centric with and in the central plane of the cylinder. How much power is being dissipated at t = 0.348837 s in a 80 2 resistor connected across the ends of the coil? Answer in units of W.
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Transcribed Image Text:A cylinder with a(n) 1.6 cm radius and a
length of 3.9 m is tightly wrapped with 4000
turns of wire. The current in the wire is
decaying according to I = Io eat, with Io =
1.1 A and a = 4.3s-¹.
What is the electric field at a point 5.9 cm
radially from the axis of the cylinder at t =
0.581395 s?
Answer in units of V/m.
A coil of 320 turns and radius 9.5 cm is con-
centric with and in the central plane of the
cylinder.
How much power is being dissipated at t =
0.348837 s in a 80 2 resistor connected across
the ends of the coil?
Answer in units of W.
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