A Conducting circular loop of radius r is placed in a - y plane in gravity free space as shown in the figure, mass of the loop is m and centre of the loop is at the origin. At t = 0, a current i starts flowing through the loop and a magnetic field B = Bo(i + j) exists in the region (where Bo is a constant). The acceleration of the point on loop lying on y axis due to the torque of magnetic field at the given instant is "Bo" Then, find the value of k. km
A Conducting circular loop of radius r is placed in a - y plane in gravity free space as shown in the figure, mass of the loop is m and centre of the loop is at the origin. At t = 0, a current i starts flowing through the loop and a magnetic field B = Bo(i + j) exists in the region (where Bo is a constant). The acceleration of the point on loop lying on y axis due to the torque of magnetic field at the given instant is "Bo" Then, find the value of k. km
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Transcribed Image Text:Q. 14 A Conducting circular loop of radius r is placed in x - y plane in gravity free space as shown in the figure, mass of the loop is m and
centre of the loop is at the origin. At t = 0, a current i starts flowing through the loop and a magnetic field B = Bo(i + j) exists in
the region (where Bo is a constant). The acceleration of the point on loop lying on y axis due to the torque of magnetic field at the
given instant is
TBoir
Then, find the value of k.
km
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