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A circular coil that has N = 150 turns and a radius of r = 12.0 cm lies in a magnetic field that has a magnitude of B0 = 0.0730 T directed perpendicular to the plane of the coil. What is the magnitude of the magnetic flux ΦB through the coil? ΦB = T⋅m2 The magnetic field through the coil is increased steadily to 0.135 T over a time interval of 0.585 s. What is the magnitude of the emf induced in the coil during the time interval? TOOLS ×10y

A circular coil that has N = 150 turns and a radius of r = 12.0 cm lies in a magnetic field that has a magnitude of B0 = 0.0730 T directed perpendicular to the plane of the coil. What is the magnitude of the magnetic flux ΦB through the coil? ΦB = T⋅m2 The magnetic field through the coil is increased steadily to 0.135 T over a time interval of 0.585 s. What is the magnitude of the emf induced in the coil during the time interval? TOOLS ×10y

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A circular coil that has N = 150 turns and a radius of r = 12.0 c m lies in a magnetic field that has a magnitude of B 0 = 0.0730 T directed perpendicular to the plane of the coil.
What is the magnitude of the magnetic flux Φ B through the coil?
Φ B =
T m 2
The magnetic field through the coil is increased steadily to 0.135 T over a time interval of 0.585 s .
What is the magnitude | | of the emf induced in the coil during the time interval?
| | = V
c TOOLS × 10 y

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