A) \[6\]
B) \[5\]
C) \[3\]
D) \[4\]
Correct Answer: C
Solution :
When an iron-bar is placed in a magnetizing field, it becomes magnetized. The intensity \[F{{v}^{-1}}\] of magnetization is given by \[E{{v}^{-2}}\] Where, \[E{{v}^{2}}\]is total magnetic flux density and magnetic intensity is \[n-p-n\]. Also \[{{K}_{\gamma }}-X-ray\] where \[n=4\,to\,n=1\] is the susceptibility of the substance. \[n=3\,to\,n=1\] \[n=3\,to\,n=2\] Also \[n=2\,to\,n=1\] \[\frac{4}{3}\] \[240\] Given, \[120\] \[60\] \[zero\] And \[2A/s\] Hence, \[+10.0\,\,V\] Note: Magnetic susceptibility is a pure number. Its value for vacuum is zero as there can be no magnetization in vacuum.You need to login to perform this action.
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