2. A time-dependent magnetic field is directed perpendicular to a given circular section of a solenoid. This magnetic field is confined to a cylindrical volume of radius R= 5.0 cm such that the magnetic field, B = 0 for radial distances r> R. Find the rate of change of the magnetic field that will result in an induced electric field of magnitude E= 0.5 V/m at radial distance, r 7.0 cm (outside the section). [-28 T/s]
2. A time-dependent magnetic field is directed perpendicular to a given circular section of a solenoid. This magnetic field is confined to a cylindrical volume of radius R= 5.0 cm such that the magnetic field, B = 0 for radial distances r> R. Find the rate of change of the magnetic field that will result in an induced electric field of magnitude E= 0.5 V/m at radial distance, r 7.0 cm (outside the section). [-28 T/s]
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![2. A time-dependent magnetic field is directed
perpendicular to a given circular section of a
solenoid. This magnetic field is confined to a cylindrical volume of radius R = 5.0 cm
such that the magnetic field, B = 0 for radial distances r> R. Find the rate of change of
the magnetic field that will result in an induced electric field of magnitude E = 0.5 V/m
at radial distance, r =7.0 cm (outside the section).
[-28 T/s]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F875568cf-d873-489d-b4a2-37d9914c0746%2Fc0a2b7fc-eca3-4d51-9e53-e502de70c869%2Fk7hvc28_processed.jpeg&w=3840&q=75)
Transcribed Image Text:2. A time-dependent magnetic field is directed
perpendicular to a given circular section of a
solenoid. This magnetic field is confined to a cylindrical volume of radius R = 5.0 cm
such that the magnetic field, B = 0 for radial distances r> R. Find the rate of change of
the magnetic field that will result in an induced electric field of magnitude E = 0.5 V/m
at radial distance, r =7.0 cm (outside the section).
[-28 T/s]
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