There is an electric generator with the following characteristics: the winding has 208 turns and a diameter of 10 cm, it is placed inside a 0.9 T magnetic field directed perpendicularly to the plane of the coil and rotates at a rate of 27 revolutions per minute. Calculate the magnetic flux when the plane of the coil is in the vertical position perpendicular to the direction of the magnetic field with the North Pole below and the South Pole above and considering that the normal to the plane of the coil is directed vertically upwards. 0.02827 70.69 282.7 0

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There is an electric generator with the following characteristics: the winding has 208
turns and a diameter of 10 cm, it is placed inside a 0.9 T magnetic field directed
perpendicularly to the plane of the coil and rotates at a rate of 27 revolutions per
minute.
Calculate the magnetic flux when the plane of the coil is in the vertical position
perpendicular to the direction of the magnetic field with the North Pole below and the
South Pole above and considering that the normal to the plane of the coil is directed
vertically upwards.
0.02827
70.69
282.7
0
Transcribed Image Text:There is an electric generator with the following characteristics: the winding has 208 turns and a diameter of 10 cm, it is placed inside a 0.9 T magnetic field directed perpendicularly to the plane of the coil and rotates at a rate of 27 revolutions per minute. Calculate the magnetic flux when the plane of the coil is in the vertical position perpendicular to the direction of the magnetic field with the North Pole below and the South Pole above and considering that the normal to the plane of the coil is directed vertically upwards. 0.02827 70.69 282.7 0
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