<math>~\frac{2}{(1-x^2)(2-x^2)} \biggl[ \biggl( \alpha + \frac{x \mathcal{G}_\sigma^'}{\mathcal{G}_\sigma}\biggr)(5-3x^2) -\sigma^2 \biggr]</math>

<math>~=</math>

<math>~ \biggl(\frac{\mathcal{G}_\sigma^{' '}}{\mathcal{G}_\sigma}\biggr) +\frac{4}{x^2} \cdot \frac{x \mathcal{G}_\sigma^'}{\mathcal{G}_\sigma} </math>

<math>~\mathcal{G}_\sigma</math>

<math>~=</math>

<math>~(a_0 + a_2x^2)^n \cdot (b_0 + b_2x^2)^m \, ,</math>

<math>~\mathcal{G}_\sigma^'</math>

<math>~=</math>

<math>~n(a_0 + a_2x^2)^{n-1}(2a_2x) \cdot (b_0 + b_2x^2)^m +m (a_0 + a_2x^2)^n \cdot (b_0 + b_2x^2)^{m-1}(2b_2x)</math>

<math>~\Rightarrow ~~~~ \frac{x \mathcal{G}_\sigma^'}{\mathcal{G}_\sigma}</math>

<math>~=</math>

<math>~n(a_0 + a_2x^2)^{-1}(2a_2x^2) +m (b_0 + b_2x^2)^{-1}(2b_2x^2) </math>

<math>~=</math>

<math>~\frac{2x^2}{(a_0 + a_2x^2) (b_0 + b_2x^2)} \biggl[ n a_2 (b_0 + b_2x^2) +mb_2 (a_0 + a_2x^2) \biggr] </math>

<math>~=</math>

<math>~\frac{2x^2}{(a_0 + a_2x^2) (b_0 + b_2x^2)} \biggl[ (n a_2 b_0 + mb_2 a_0) +(na_2 b_2+ mb_2 a_2)x^2\biggr] \, ,</math>

<math>~\mathcal{G}_\sigma^{' '}</math>

<math>~=</math>

<math>~n m (a_0 + a_2x^2)^{n-1}(2a_2x) \cdot (b_0 + b_2x^2)^{m-1}(2b_2x) + n(a_0 + a_2x^2)^{n-1}(2a_2) \cdot (b_0 + b_2x^2)^m + n(n-1)(a_0 + a_2x^2)^{n-2}(2a_2x)^2 \cdot (b_0 + b_2x^2)^m </math>

<math>~+m n(a_0 + a_2x^2)^{n-1}(2a_2x) \cdot (b_0 + b_2x^2)^{m-1}(2b_2x) +m (a_0 + a_2x^2)^n \cdot (b_0 + b_2x^2)^{m-1}(2b_2) +m(m-1) (a_0 + a_2x^2)^n \cdot (b_0 + b_2x^2)^{m-2}(2b_2x)^2</math>

<math>~\Rightarrow ~~~~ \frac{\mathcal{G}_\sigma^{' '}}{\mathcal{G}_\sigma}</math>

<math>~=</math>

<math>~8n m a_2b_2 x^2 (a_0 + a_2x^2)^{-1}\cdot (b_0 + b_2x^2)^{-1} + n2a_2 (a_0 + a_2x^2)^{-1} + n(n-1)4a_2^2 x^2 (a_0 + a_2x^2)^{-2} +m2b_2 (b_0 + b_2x^2)^{-1} +m(m-1)4 b_2^2 x^2 (b_0 + b_2x^2)^{-2}</math>

<math>~=</math>

<math>~\frac{2n a_2(b_0 + b_2x^2) + 2m b_2 (a_0 + a_2x^2)}{ (a_0 + a_2x^2)(b_0 + b_2x^2)} + \biggl[ \frac{4n(n-1) a_2^2 }{ (a_0 + a_2x^2)^{2}} + \frac{8n m a_2b_2}{ (a_0 + a_2x^2)(b_0 + b_2x^2)}+ \frac{4m(m-1) b_2^2 }{(b_0 + b_2x^2)^{2}} \biggr]x^2 </math>

LHS

<math>~=</math>

<math>~ \frac{2}{(1-x^2)(2-x^2)} \biggl[ \biggl( \alpha + \frac{x \mathcal{G}_\sigma^'}{\mathcal{G}_\sigma}\biggr)(5-3x^2) -\sigma^2 \biggr]</math>

<math>~=</math>

<math>~ \frac{2}{(1-x^2)(2-x^2)(a_0 + a_2x^2) (b_0 + b_2x^2)} \biggl\{ \biggl[ \alpha(a_0 + a_2x^2) (b_0 + b_2x^2) + 2x^2(n a_2 b_0 + mb_2 a_0) + 2x^4 (na_2 b_2+ mb_2 a_2) \biggr](5-3x^2) </math>

<math>~ -\sigma^2 (a_0 + a_2x^2) (b_0 + b_2x^2) \biggr\} \, ;</math>

RHS

<math>~=</math>

<math>~ \biggl(\frac{\mathcal{G}_\sigma^{' '}}{\mathcal{G}_\sigma}\biggr) +\frac{4}{x^2} \cdot \frac{x \mathcal{G}_\sigma^'}{\mathcal{G}_\sigma} </math>

<math>~=</math>

<math>~\frac{2n a_2(b_0 + b_2x^2) + 2m b_2 (a_0 + a_2x^2)}{ (a_0 + a_2x^2)(b_0 + b_2x^2)} + \biggl[ \frac{4n(n-1) a_2^2 }{ (a_0 + a_2x^2)^{2}} + \frac{8n m a_2b_2}{ (a_0 + a_2x^2)(b_0 + b_2x^2)}+ \frac{4m(m-1) b_2^2 }{(b_0 + b_2x^2)^{2}} \biggr]x^2 </math>

<math>~ + \frac{8}{(a_0 + a_2x^2) (b_0 + b_2x^2)} \biggl[ (n a_2 b_0 + mb_2 a_0) +(na_2 b_2+ mb_2 a_2)x^2\biggr] </math>

<math>~=</math>

<math>~\frac{1}{(a_0 + a_2x^2)(b_0 + b_2x^2)} \biggl\{ 2n a_2(b_0 + b_2x^2) + 2m b_2 (a_0 + a_2x^2) + 8(n a_2 b_0 + mb_2 a_0) + 8(na_2 b_2+ mb_2 a_2)x^2 </math>

<math>~ + \biggl[8n m a_2b_2+ \frac{4n(n-1) a_2^2(b_0 + b_2x^2) }{ (a_0 + a_2x^2)} + \frac{4m(m-1) b_2^2(a_0 + a_2x^2) }{(b_0 + b_2x^2)} \biggr]x^2 \biggr\} \, . </math>

<math>~ 0 </math>

<math>~=</math>

<math>~ \biggl[ \alpha(a_0 + a_2x^2) (b_0 + b_2x^2) + 2x^2(n a_2 b_0 + mb_2 a_0) + 2x^4 (na_2 b_2+ mb_2 a_2) \biggr](5-3x^2) -\sigma^2 (a_0 + a_2x^2) (b_0 + b_2x^2) </math>

<math>~ - \biggl[ n a_2(b_0 + b_2x^2) + m b_2 (a_0 + a_2x^2) + 4(n a_2 b_0 + mb_2 a_0) + 4(na_2 b_2+ mb_2 a_2)x^2+ 4n m a_2b_2x^2 \biggr](1-x^2)(2-x^2) </math>

<math>~ - \frac{(1-x^2)(2-x^2)}{ (a_0 + a_2x^2)(b_0 + b_2x^2)}\biggl[2n(n-1) a_2^2(b_0 + b_2x^2)^2 + 2m(m-1) b_2^2(a_0 + a_2x^2)^2 \biggr]x^2 \, . </math>

<math>~ 0 </math>

<math>~=</math>

<math>~ \biggl[ \alpha(1 + \lambda x^2) (1 + \eta x^2) + 2x^2(n \lambda + m\eta ) + 2x^4 (n\lambda \eta + m\eta \lambda ) \biggr](5-3x^2) -\sigma^2 (1 + \lambda x^2) (1 + \eta x^2) </math>

<math>~ - \biggl[ n \lambda (1 + \eta x^2) + m \eta (1 + \lambda x^2) + 4(n \lambda + m\eta ) + 4(n\lambda \eta + m\eta \lambda )x^2+ 4n m \lambda \eta x^2 \biggr](1-x^2)(2-x^2) </math>

<math>~ - \frac{(1-x^2)(2-x^2)}{ (1 + \lambda x^2)(1 + \eta x^2)}\biggl[2n(n-1) \lambda^2(1 + \eta x^2)^2 + 2m(m-1) \eta ^2(1 + \lambda x^2)^2 \biggr]x^2 \, . </math>

<math>~\sigma^2 </math>

<math>~=</math>

<math>~5(1-\tfrac{3}{5}x^2) \biggl[ \alpha + \frac{x \mathcal{G}_\sigma^'}{\mathcal{G}_\sigma}\biggr] - (1-x^2)(1-\tfrac{1}{2}x^2)\biggl[ \biggl(\frac{\mathcal{G}_\sigma^{' '}}{\mathcal{G}_\sigma}\biggr) +\frac{4}{x^2} \cdot \frac{x \mathcal{G}_\sigma^'}{\mathcal{G}_\sigma} \biggr] </math>

<math>~\mathcal{G}_\sigma</math>

<math>~=</math>

<math>~(1 + \lambda x^2)^n \cdot (1 + \eta x^2)^m \cdot (1 + \beta x^2)^\ell \, ,</math>

<math>~\mathcal{G}_\sigma</math>

<math>~=</math>

<math>~N^n \cdot M^m \cdot L^\ell \, ,</math>

<math>~\frac{x\mathcal{G}_\sigma^'}{\mathcal{G}_\sigma}</math>

<math>~=</math>

<math>~ \frac{2x^2}{N\cdot M \cdot L} \biggl[ \ell \beta M\cdot N + m\eta L\cdot N + n\lambda L\cdot M\biggr] \, , </math>

<math>~\frac{\mathcal{G}_\sigma^{' '}}{\mathcal{G}_\sigma}</math>

<math>~=</math>

<math>~\frac{4 x^2}{N\cdot M \cdot L} \biggl[ \ell \beta (m\eta N + n\lambda M) + m\eta (\ell \beta N + n\lambda L) + n\lambda (\ell \beta M + m\eta L) \biggr] </math>

<math>~ + \frac{2\ell \beta}{L^2} \biggl[ 1 + x^2 \beta (2\ell -1)\biggr] + \frac{2m\eta}{M^2}\biggl[ 1+x^2 \eta(2m-1)\biggr] + \frac{2n\lambda}{N^2}\biggl[1 + x^2 \lambda(2n-1) \biggr] \, . </math>

<math>~L \cdot \sigma^2 </math>

<math>~=</math>

<math>~5L^2 \biggl[ \alpha + \frac{x \mathcal{G}_\sigma^'}{\mathcal{G}_\sigma}\biggr] - N\cdot M\cdot L\biggl[ \biggl(\frac{\mathcal{G}_\sigma^{' '}}{\mathcal{G}_\sigma}\biggr) +\frac{4}{x^2} \cdot \frac{x \mathcal{G}_\sigma^'}{\mathcal{G}_\sigma} \biggr] \, . </math>

<math>~L \cdot \sigma^2 </math>

<math>~=</math>

<math>~5L^2 \biggl\{ \alpha + \frac{2x^2}{N\cdot M \cdot L} \biggl[ \ell \beta M\cdot N + m\eta L\cdot N + n\lambda L\cdot M\biggr] \biggr\} </math>

<math>~ - \biggl\{ 4x^2\biggl[ \ell \beta (m\eta N + n\lambda M) + m\eta (\ell \beta N + n\lambda L) + n\lambda (\ell \beta M + m\eta L) \biggr] + 8\biggl[ \ell \beta M\cdot N + m\eta L\cdot N + n\lambda L\cdot M \biggr] \biggr\} </math>

<math>~ - N\cdot M\cdot L\biggl\{ \frac{2\ell \beta}{L^2} \biggl[ 1 + x^2 \beta (2\ell -1)\biggr] + \frac{2m\eta}{M^2}\biggl[ 1+x^2 \eta(2m-1)\biggr] + \frac{2n\lambda}{N^2}\biggl[1 + x^2 \lambda(2n-1) \biggr] \biggr\} </math>

<math>~=</math>

<math>~5L^2 \biggl\{ \alpha - \frac{2x^2}{N\cdot M \cdot L} \biggl[ \tfrac{3}{5}\ell M\cdot N + \tfrac{1}{2}m L\cdot N + n L\cdot M\biggr] \biggr\} </math>

<math>~ + \biggl\{ - 4x^2\biggl[ \tfrac{3}{5}\ell (\tfrac{1}{2}m N + n M) + \tfrac{1}{2}m (\tfrac{3}{5}\ell N + n L) + n (\tfrac{3}{5}\ell M + \tfrac{1}{2}m L) \biggr] + 8\biggl[ \tfrac{3}{5}\ell M\cdot N + \tfrac{1}{2}m L\cdot N + n L\cdot M \biggr] \biggr\} </math>

<math>~ + \biggl\{ \frac{6\ell N\cdot M}{5 L} \biggl[ 1 - \tfrac{3}{5} (2\ell -1)x^2 \biggr] + \frac{m N\cdot L}{M}\biggl[ 1 - \tfrac{1}{2}(2m-1)x^2 \biggr] + \frac{2nM\cdot L}{N}\biggl[1 - (2n-1) x^2\biggr] \biggr\} </math>

<math>~\Rightarrow ~~~ N\cdot M\cdot L^2 \sigma^2 </math>

<math>~=</math>

<math>~5L^2 \biggl\{ N\cdot M\cdot L\cdot \alpha - 2x^2 [ \tfrac{3}{5}\ell M\cdot N + \tfrac{1}{2}m L\cdot N + n L\cdot M ] \biggr\} </math>

<math>~ + N\cdot M\cdot L\biggl\{ - 4x^2 [ \tfrac{3}{5}\ell (\tfrac{1}{2}m N + n M) + \tfrac{1}{2}m (\tfrac{3}{5}\ell N + n L) + n (\tfrac{3}{5}\ell M + \tfrac{1}{2}m L) ] + 8 [ \tfrac{3}{5}\ell M\cdot N + \tfrac{1}{2}m L\cdot N + n L\cdot M ] \biggr\} </math>

<math>~ + \biggl\{ \tfrac{6}{5} \ell N^2\cdot M^2 [ 1 - \tfrac{3}{5} (2\ell -1)x^2 ] + m N^2\cdot L^2 [ 1 - \tfrac{1}{2}(2m-1)x^2 ] + 2nM^2\cdot L^2 [1 - (2n-1) x^2] \biggr\} </math>

<math>~\Rightarrow ~~~ \sigma^2 </math>

<math>~=</math>

<math>~5L \biggl\{ \alpha - 2x^2 \biggl[ \frac{3}{5}\ell \biggl( \frac{1}{L}\biggr) + \frac{1}{2}m \biggl(\frac{1}{M}\biggr) + n \biggl(\frac{1}{N}\biggr) \biggr] \biggr\} </math>

<math>~ + \frac{1}{L}\biggl\{ - 4x^2 [ \tfrac{3}{5}\ell (\tfrac{1}{2}m N + n M) + \tfrac{1}{2}m (\tfrac{3}{5}\ell N + n L) + n (\tfrac{3}{5}\ell M + \tfrac{1}{2}m L) ] + 8 [ \tfrac{3}{5}\ell M\cdot N + \tfrac{1}{2}m L\cdot N + n L\cdot M ] \biggr\} </math>

<math>~ + \frac{1}{L}\biggl\{ \frac{6\ell}{5} \biggl[ \frac{N\cdot M}{L}\biggl] \biggl[ 1 - \frac{3}{5} (2\ell -1)x^2 \biggl] + m \biggl[ \frac{N \cdot L}{M} \biggl]\biggl[ 1 - \tfrac{1}{2}(2m-1)x^2 \biggl] + 2n\biggl[ \frac{M \cdot L}{N} \biggl] \biggl[ 1 - (2n-1) x^2\biggl] \biggr\} </math>

<math>~=</math>

<math>~5L \biggl\{ \alpha + 2 \biggl[ (L-1)\ell \biggl( \frac{1}{L}\biggr) + (M-1)m \biggl(\frac{1}{M}\biggr) + (N-1)n \biggl(\frac{1}{N}\biggr) \biggr] \biggr\} </math>

<math>~ + \frac{4}{L}\biggl\{ \tfrac{6}{5}\ell M\cdot N + m L\cdot N +2 n L\cdot M + (L-1)\ell (\tfrac{1}{2}m N + n M) + (M-1) m (\tfrac{3}{5}\ell N + n L) + (N-1)n (\tfrac{3}{5}\ell M + \tfrac{1}{2}m L) \biggr\} </math>

<math>~ + \frac{1}{L}\biggl\{ \frac{6\ell}{5} \biggl[ \frac{N\cdot M}{L}\biggl] \biggl[ 1 + (L-1)(2\ell -1) \biggl] + m \biggl[ \frac{N \cdot L}{M} \biggl]\biggl[ 1 +(M-1)(2m-1) \biggl] + 2n\biggl[ \frac{M \cdot L}{N} \biggl] \biggl[ 1+ (N-1) (2n-1) \biggl] \biggr\} </math>

<math>~=</math>

<math>~5L \biggl\{ \alpha + 2 \biggl[ \biggl(1-\frac{1}{L} \biggr)\ell + \biggl(1-\frac{1}{M} \biggr)m + \biggl(1-\frac{1}{N} \biggr)n \biggr] \biggr\} </math>

<math>~ + \frac{4}{L}\biggl\{ \tfrac{6}{5}\ell M\cdot N + m L\cdot N +2 n L\cdot M + \ell (\tfrac{1}{2}m N\cdot L + n M\cdot L) -\ell (\tfrac{1}{2}m N + n M) + m (\tfrac{3}{5}\ell N\cdot M + n L\cdot M) - m (\tfrac{3}{5}\ell N + n L) + n (\tfrac{3}{5}\ell M\cdot N + \tfrac{1}{2}m L\cdot N) - n (\tfrac{3}{5}\ell M + \tfrac{1}{2}m L) \biggr\} </math>

<math>~ + \frac{1}{L}\biggl\{ \frac{6\ell}{5} \biggl[ \frac{N\cdot M}{L}\biggl] \biggl[ 2(1-\ell) + L(2\ell -1) \biggl] + m \biggl[ \frac{N \cdot L}{M} \biggl]\biggl[ 2(1-m) +M(2m-1) \biggl] + 2n\biggl[ \frac{M \cdot L}{N} \biggl] \biggl[ 2(1-n) + N (2n-1) \biggl] \biggr\} </math>

<math>~=</math>

<math>~5L \biggl\{ \alpha + 2(\ell + m + n) - 2 \biggl[ \biggl(\frac{\ell}{L} \biggr) + \biggl(\frac{m}{M} \biggr) + \biggl(\frac{n}{N} \biggr) \biggr] \biggr\} </math>

<math>~ + \frac{2}{L}\biggl\{ \frac{6\ell}{5} N\cdot M \biggl[ 2 + m + n \biggr] + m L\cdot N \biggl[ 2 + \ell + n \biggr] + 2nL \cdot M \biggl[ 2 + \ell + m \biggr] \biggr\} \biggr\} + \frac{1}{L}\biggl\{ \frac{6\ell}{5} N\cdot M \biggl[ (2\ell -1) \biggl] + m L \cdot N \biggl[ (2m-1) \biggl] + 2n L \cdot M \biggl[ (2n-1) \biggl] \biggr\} </math>

<math>~ + \frac{1}{L}\biggl\{ \frac{6\ell}{5} N\cdot M \biggl[ \frac{2}{L}(1-\ell) \biggl] + m L \cdot N \biggl[ \frac{2}{M} (1-m) \biggl] + 2n L \cdot M \biggl[ \frac{2}{N}(1-n) \biggl] \biggr\} - \frac{4}{L}\biggl\{ \biggl[ \ell m N (\tfrac{1}{2} + \tfrac{3}{5}) + \ell n M(1 + \tfrac{3}{5} ) + m n L (1 + \tfrac{1}{2})\biggr] </math>

<math>~=</math>

<math>~5L \biggl\{ \alpha + 2(\ell + m + n) - 2 \biggl[ \biggl(\frac{\ell}{L} \biggr) + \biggl(\frac{m}{M} \biggr) + \biggl(\frac{n}{N} \biggr) \biggr] \biggr\} + \frac{(3 + 2m + 2n + 2\ell)}{L}\biggl[ \frac{6\ell}{5} N\cdot M + m L \cdot N + 2n L \cdot M \biggr] </math>

<math>~ - \frac{4}{L}\biggl\{ \frac{3}{5} \biggl[ \frac{N\cdot M}{L} \biggr] \ell(\ell - 1) + \frac{1}{2}\biggl[ \frac{L \cdot N}{M}\biggr] m(m-1) + \biggl[ \frac{L \cdot M }{N} \biggr] n(n-1) \biggr\} - \frac{4}{L}\biggl\{ \biggl[ \ell m N (\tfrac{1}{2} + \tfrac{3}{5}) + \ell n M(1 + \tfrac{3}{5} ) + m n L (1 + \tfrac{1}{2})\biggr] \biggr\} </math>