In studies of the possibility of migrating birds using the Earth's magnetic field for navigation, birds have been fitted with coils as "caps" and "collars" as shown in the figure below. (a) If the identical coils have radii of 1.26 cm and are 2.38 cm apart, with 62 turns of wire apiece, what current should they both carry to produce a magnetic field of 4.20 x 105 T halfway between them? mA (b) If the resistance of each coil is 230, what voltage should the battery supplying each coil have? V (c) What power is delivered to each coil? mW
In studies of the possibility of migrating birds using the Earth's magnetic field for navigation, birds have been fitted with coils as "caps" and "collars" as shown in the figure below. (a) If the identical coils have radii of 1.26 cm and are 2.38 cm apart, with 62 turns of wire apiece, what current should they both carry to produce a magnetic field of 4.20 x 105 T halfway between them? mA (b) If the resistance of each coil is 230, what voltage should the battery supplying each coil have? V (c) What power is delivered to each coil? mW
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Transcribed Image Text:In studies of the possibility of migrating birds using the Earth's magnetic field for navigation, birds have been fitted with coils as "caps" and "collars" as shown in the figure
below.
(a) If the identical coils have radii of 1.26 cm and are 2.38 cm apart, with 62 turns of wire apiece, what current should they both carry to produce a magnetic field
of 4.20 x 105 T halfway between them?
mA
(b) If the resistance of each coil is 230, what voltage should the battery supplying each coil have?
V
(c) What power is delivered to each coil?
mW
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