The figure below shows a circular region of radius R = 0.0227 m which has a spatially constant magnetic field that can be expressed as a function of time as B = bt where b is a positive constant. Find the time at which the energy density of the magnetic field is equal to that of the induced electric field at the perimeter of the circular region. i S OOOO OOOO OOOOOOO
The figure below shows a circular region of radius R = 0.0227 m which has a spatially constant magnetic field that can be expressed as a function of time as B = bt where b is a positive constant. Find the time at which the energy density of the magnetic field is equal to that of the induced electric field at the perimeter of the circular region. i S OOOO OOOO OOOOOOO
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Transcribed Image Text:The figure below shows a circular region of radius R = 0.0227 m which has a spatially constant magnetic
field that can be expressed as a function of time as B = bt where b is a positive constant. Find the time at
which the energy density of the magnetic field is equal to that of the induced electric field at the perimeter of
the circular
region. i
S
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O O
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