A uniform and stationary magnetic field is perpendicular to the plane containing a circular metallic coil of area Aand resistance R. At instant t= (the coil is rotated around its diameter with constant angular velocity w. The electrical power P dissipated in the loop is c alculated neglecting the self-induction A²B 0 (to)P = 4² sin² wt O (b)P = O (c)P, = O (d) ²²² sin² wt B2 2 AB2 ²² sin² wt there is not enough data to answer
A uniform and stationary magnetic field is perpendicular to the plane containing a circular metallic coil of area Aand resistance R. At instant t= (the coil is rotated around its diameter with constant angular velocity w. The electrical power P dissipated in the loop is c alculated neglecting the self-induction A²B 0 (to)P = 4² sin² wt O (b)P = O (c)P, = O (d) ²²² sin² wt B2 2 AB2 ²² sin² wt there is not enough data to answer
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![A uniform and stationary magnetic field is perpendicular to the plane containing a circular metallic coil of area Aand resistance R. At
instant t =
Othe coil is rotated around its diameter with constant angular velocity . The electrical power P dissipated in the loop is c
alculated neglecting the self-induction.
0 (to)P = 4² sin² wt
O (b)P = 4²²² sin² wt
O (C)P, = ²² sin² wt
O (d)
there is not enough data to answer](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F69abe347-3171-4e61-a174-a7b3b3908d42%2F0149451e-bdeb-4d87-8c38-7320aedc8d81%2Fqbewy3w_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A uniform and stationary magnetic field is perpendicular to the plane containing a circular metallic coil of area Aand resistance R. At
instant t =
Othe coil is rotated around its diameter with constant angular velocity . The electrical power P dissipated in the loop is c
alculated neglecting the self-induction.
0 (to)P = 4² sin² wt
O (b)P = 4²²² sin² wt
O (C)P, = ²² sin² wt
O (d)
there is not enough data to answer
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