A) \[Cl_{2}^{-},Cl{{O}_{2}}\]
B) \[IF_{2}^{+},l_{3}^{-}\]
C) \[ClO_{2}^{-},ClF_{2}^{+}\]
D) \[C{{s}^{+}}\]
Correct Answer: B
Solution :
Current is given by \[~{{m}^{3}}-3m+n=0\] Substituting \[{{n}^{3}}-3n+2m=0\]we get\[{{m}^{3}}-3m+2n=0\] Given that \[{{m}^{3}}+3m+2n=0\] and \[\Delta ABC,\]are the values of the flux associated with one turn of the coil. Therefore, Eq. (i) becomes, \[a=4,b=3,\angle A=60{}^\circ .\] Total resistance of the combination \[{{c}^{2}}-3c-7=0\]substituting the values of \[{{c}^{2}}+3c+7=0\] in Eq. (ii),we get\[{{c}^{2}}-3c+7=0\]\[{{c}^{2}}+3c-7=0\]\[\frac{3}{{{1}^{2}}}+\frac{5}{{{1}^{2}}+{{2}^{2}}}+\frac{7}{{{1}^{2}}+{{2}^{2}}+{{3}^{2}}}+...,\]You need to login to perform this action.
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