<math>~\lambda_1</math>

<math>~\equiv</math>

<math>~ (x^2 + q^2 y^2 + p^2 z^2)^{1 / 2} \, ; </math>

<math>~\hat{e}_1</math>

<math>~=</math>

<math>~ \ell_{3D} \biggl[ \hat\imath (x) + \hat\jmath (q^2y ) + \hat{k} (p^2 z) \biggr] \, , </math>

<math>~\ell_{3D}</math>

<math>~\equiv</math>

<math>~ (x^2 + q^4y^2 + p^4 z^2)^{- 1 / 2} \, . </math>

<math>~\lambda_2</math>

<math>~\equiv</math>

<math>~ x^a y^b z^c \, , </math>

<math>~\hat{e}_2</math>

<math>~=</math>

<math>~ \frac{1}{\mathfrak{L}} \biggl[ \hat\imath \biggl(\frac{yz}{bc}\biggr) + \hat\jmath \biggl(\frac{xz}{ac}\biggr) + \hat{k} \biggl(\frac{xy}{ab}\biggr) \biggr] \, , </math>

<math>~\mathfrak{L}^2</math>

<math>~\equiv</math>

<math>~ \frac{1}{a^2b^2c^2} \biggl[ a^2(yz)^2 + b^2(xz)^2 + c^2(xy)^2 \biggr] \, . </math>

<math>~\hat{e}_1 \cdot \hat{e}_2</math>

<math>~=</math>

<math>~0</math>

<math>~\Rightarrow~~~ 0</math>

<math>~=</math>

<math>~ \frac{\ell_{3D}}{\mathfrak{L}} \biggl[ \frac{xyz}{bc} + \frac{q^2xyz}{ac} + \frac{p^2xyz}{ab} \biggr] = \frac{\ell_{3D} (xyz)}{\mathfrak{L}(abc)} \biggl[ a + q^2b + p^2 c \biggr] </math>

<math>~\Rightarrow~~~ 0</math>

<math>~=</math>

<math>~ \biggl[ a + q^2b + p^2 c \biggr]\, . </math>

<math>~\lambda_2</math>

<math>~\equiv</math>

<math>~ \tan^{-1} [x^a y^b z^c] \, . </math>

<math>~\frac{\partial \lambda_2}{\partial x_i}</math>

<math>~=</math>

<math>~ \biggl[ \frac{1}{1+\tan^2\lambda_2} \biggr] \frac{\partial }{\partial x_i} \biggl[ x^a y^b z^c \biggr] = \cos^2\lambda_2 \cdot \frac{\partial }{\partial x_i} \biggl[ x^a y^b z^c \biggr] \, ; </math>

<math>~\frac{\partial \lambda_2}{\partial x}</math>

<math>~=</math>

<math>~ \cos^2\lambda_2 \cdot \biggl[ x^a y^b z^c \biggr] \frac{a}{x} = \cos^2\lambda_2 \cdot \biggl[ \tan\lambda_2 \biggr] \frac{a}{x} = \sin\lambda_2 \cos\lambda_2 \biggl( \frac{a}{x} \biggr) \, , </math>

<math>~\frac{\partial \lambda_2}{\partial y}</math>

<math>~=</math>

<math>~ \sin\lambda_2 \cos\lambda_2 \biggl( \frac{b}{y} \biggr) \, , </math>

<math>~\frac{\partial \lambda_2}{\partial z}</math>

<math>~=</math>

<math>~ \sin\lambda_2 \cos\lambda_2 \biggl( \frac{c}{z} \biggr) \ . </math>

<math>~h_2^{-2}</math>

<math>~=</math>

<math>~ \sin^2\lambda_2 \cos^2\lambda_2 \biggl[ \frac{a^2}{x^2} + \frac{b^2}{y^2} + \frac{c^2}{z^2} \biggr] = \frac{\sin^2\lambda_2 \cos^2\lambda_2}{(xyz)^2} \biggl[ a^2(yz)^2 + b^2(xz)^2 + c^2(xy)^2 \biggr] </math>

<math>~\hat{e}_3</math>

<math>~=</math>

<math>~\hat{e}_1 \times \hat{e}_2</math>

<math>~=</math>

<math>~ \hat\imath \biggl[ e_{1y} e_{2z} - e_{1z} e_{2y} \biggr] + \hat\jmath \biggl[ e_{1z}e_{2x} - e_{1x}e_{2z} \biggr] + \hat{k} \biggl[ e_{1x}e_{2y} - e_{1y}e_{2x} \biggr] </math>

<math>~=</math>

<math>~\frac{\ell_{3D}}{\mathfrak{L}} \biggl\{ \hat\imath \biggl[ (q^2y) \biggl( \frac{xy}{ab} \biggr) - (p^2z) \biggl( \frac{xz}{ac} \biggr) \biggr] + \hat\jmath \biggl[ (p^2z) \biggl( \frac{yz}{bc} \biggr) - (x)\biggl( \frac{xy}{ab} \biggr) \biggr] + \hat{k} \biggl[ (x) \biggl( \frac{xz}{ac} \biggr) - (q^2y) \biggl( \frac{yz}{bc} \biggr) \biggr] \biggr\} </math>

<math>~=</math>

<math>~\frac{\ell_{3D}}{\mathfrak{L}(abc)} \biggl\{ \hat\imath \biggl[ (cq^2y^2) - (b p^2z^2) \biggr]x + \hat\jmath \biggl[ (ap^2z^2) - (cx^2) \biggr]y + \hat{k} \biggl[ (bx^2) - (aq^2y^2) \biggr]z \biggr\} </math>

<math>~\hat{e}_2</math>

<math>~=</math>

<math>~ \frac{1}{\mathfrak{L}_{T6} (abc)} \biggl[ \hat\imath (ayz) + \hat\jmath (bxz) + \hat{k} (cxy) \biggr] = \frac{z}{q^2 \mathfrak{L}_{T6} (abc)} \biggl[ -\hat\imath (q^2y) + \hat\jmath (x) \biggr] </math>

<math>~=</math>

<math>~ \biggl[ -\hat\imath (q^2y) + \hat\jmath (x) \biggr] \ell_q \, , </math>

<math>~\ell_q^{-2} \equiv \biggl[ \frac{q^4\mathfrak{L}_{T6}^2(abc)^2}{z^2}\biggr]</math>

<math>~=</math>

<math>~ \frac{q^4}{z^2}\biggl[ (yz)^2 + b^2(xz)^2 \biggr] = \biggl[ x^2 + q^4y^2 \biggr] \, . </math>

<math>~\hat{e}_3</math>

<math>~=</math>

<math>~\frac{\ell_{3D}}{\mathfrak{L}_{T6} (abc)} \biggl\{ \hat\imath \biggl[ (cq^2y^2) - (b p^2z^2) \biggr]x + \hat\jmath \biggl[ (ap^2z^2) - (cx^2) \biggr]y + \hat{k} \biggl[ (bx^2) - (aq^2y^2) \biggr]z \biggr\} </math>

<math>~=</math>

<math>~\ell_{3D}\biggl( \frac{\ell_q q^2}{z} \biggr) \biggl\{ -\hat\imath \biggl[ \frac{p^2z^2}{q^2}\biggr] x - \hat\jmath \biggl[ p^2z^2 \biggr]y + \hat{k} \biggl[ \frac{x^2}{q^2} + q^2y^2 \biggr]z \biggr\} </math>

<math>~=</math>

<math>~\ell_q \ell_{3D} \biggl\{ -\hat\imath (x p^2z ) - \hat\jmath (q^2y p^2z) + \hat{k} (x^2 + q^4 y^2) \biggr\} \, . </math>

<math>~\hat{e}_2</math>

<math>~=</math>

<math>~ \frac{1}{\mathfrak{L}_{T10} (abc)} \biggl[ \hat\imath (ayz) + \hat\jmath (bxz) + \hat{k} (cxy) \biggr] = \frac{1}{q^2 p^2 \mathfrak{L}_{T10} (abc)} \biggl[ \hat\imath (q^2y p^2z) + \hat\jmath ( x p^2 z ) - \hat{k} ( 2xq^2y) \biggr] </math>

<math>~(abc)^2\mathfrak{L}^2_{T10}</math>

<math>~\equiv</math>

<math>~ \biggl[ a^2(yz)^2 + b^2(xz)^2 + c^2(xy)^2 \biggr] =

\biggl[  

y^2z^2 + \frac{x^2 z^2}{q^4} + \frac{4x^2 y^2}{p^4} \biggr] </math>

<math>~\Rightarrow~~~\mathcal{D}^2 \equiv q^4p^4(abc)^2\mathfrak{L}^2_{T10}</math>

<math>~=</math>

<math>~

\biggl[  

q^4y^2 p^4z^2 + x^2 p^4z^2 + 4x^2 q^4y^2 \biggr] \, . </math>

<math>~\hat{e}_3</math>

<math>~=</math>

<math>~\frac{\ell_{3D}}{\mathcal{D}} \biggl\{ \hat\imath \biggl[ (cq^2y^2) - (b p^2z^2) \biggr]x + \hat\jmath \biggl[ (ap^2z^2) - (cx^2) \biggr]y + \hat{k} \biggl[ (bx^2) - (aq^2y^2) \biggr]z \biggr\} q^2 p^2 </math>

<math>~=</math>

<math>~\frac{\ell_{3D}}{\mathcal{D}} \biggl\{ - \hat\imath \biggl[ 2q^4y^2 + p^4z^2 \biggr]x + \hat\jmath \biggl[ p^4z^2 + 2x^2 \biggr]q^2y + \hat{k} \biggl[ x^2 - q^4y^2 \biggr]p^2z \biggr\} \, . </math>

<math>~\mathfrak{A} \equiv \ell_{3D}^{-2}</math>

<math>~=</math>

<math>~(x^2 + q^4y^2 + p^4z^2) \, ,</math>

<math>~\mathfrak{B} \equiv [\mathfrak{L}(abc)]^2</math>

<math>~=</math>

<math>~ [a^2(yz)^2 + b^2(xz)^2 + c^2(xy)^2] \, . </math>

<math>~[\hat{e}_3]_\mathrm{needed}</math>

<math>~=</math>

<math>~\mathfrak{A}^{-1 / 2} \mathfrak{B}^{-1 / 2} \biggl\{ \hat\imath \biggl[ (cq^2y^2) - (b p^2z^2) \biggr]x + \hat\jmath \biggl[ (ap^2z^2) - (cx^2) \biggr]y + \hat{k} \biggl[ (bx^2) - (aq^2y^2) \biggr]z \biggr\} \, . </math>

<math>~\lambda_3</math>

<math>~\equiv</math>

<math>~\mathfrak{A}^{1 / 2} \mathfrak{B}^{-1 / 2} \, .</math>

<math>~\frac{\partial \lambda_3}{\partial x_i}</math>

<math>~=</math>

<math>~ \biggl[ \frac{1}{2} \mathfrak{A}^{-1 / 2} \mathfrak{B}^{-1 / 2}\biggr] \frac{\partial \mathfrak{A}}{\partial x_i} - \biggl[ \frac{1}{2} \mathfrak{A}^{1 / 2} \mathfrak{B}^{- 3 / 2} \biggr] \frac{\partial \mathfrak{B}}{\partial x_i} </math>

<math>~\Rightarrow~~~ \biggl[ \frac{2\mathfrak{A}\mathfrak{B}}{\lambda_3} \biggr] \frac{\partial \lambda_3}{\partial x_i}</math>

<math>~=</math>

<math>~ \mathfrak{B}\cdot \frac{\partial \mathfrak{A}}{\partial x_i} - \mathfrak{A}\cdot \frac{\partial \mathfrak{B}}{\partial x_i} \, . </math>

<math>~ \biggl[ \frac{2\mathfrak{A}\mathfrak{B}}{\lambda_3} \biggr] \frac{\partial \lambda_3}{\partial x}</math>

<math>~=</math>

<math>~ \mathfrak{B} \biggl[ 2x \biggr] - \mathfrak{A}\biggl[ 2x (b^2z^2 + c^2 y^2)\biggr] </math>

<math>~=</math>

<math>~2x \biggl[ a^2(yz)^2 + b^2(xz)^2 + c^2(xy)^2 - (x^2 + q^4y^2 + p^4z^2)(b^2z^2 + c^2 y^2) \biggr] </math>

<math>~=</math>

<math>~2x \biggl[ a^2(yz)^2 + b^2(xz)^2 + c^2(xy)^2 - x^2 (b^2z^2 + c^2 y^2) - q^4y^2 (b^2z^2 + c^2 y^2) - p^4z^2(b^2z^2 + c^2 y^2)

\biggr] </math>

<math>~=</math>

<math>~2x \biggl\{ (yz)^2[a^2 - q^4b^2 - c^2p^4] + (xz)^2[b^2 - b^2] + (xy)^2 [c^2 - c^2] - c^2 q^4y^4 - b^2p^4z^4 \biggr\} </math>

<math>~=</math>

<math>~2x \biggl[ y^2z^2(a^2 - q^4b^2 - c^2p^4) - c^2 q^4y^4 - b^2p^4z^4 \biggr] \, ; </math>

<math>~ \biggl[ \frac{2\mathfrak{A}\mathfrak{B}}{\lambda_3} \biggr] \frac{\partial \lambda_3}{\partial y}</math>

<math>~=</math>

<math>~ \mathfrak{B} \biggl[ 2q^4y \biggr] - \mathfrak{A}\biggl[ 2y(a^2 z^2 + c^2x^2) \biggr] </math>

<math>~=</math>

<math>~2y \biggl[ q^4[a^2(yz)^2 + b^2(xz)^2 + c^2(xy)^2] - (a^2 z^2 + c^2x^2) (x^2 + q^4y^2 + p^4z^2) \biggr] </math>

<math>~=</math>

<math>~2y \biggl[ a^2q^4(yz)^2 + b^2q^4(xz)^2 + c^2q^4(xy)^2 - a^2 z^2 (x^2 + q^4y^2 + p^4z^2) - c^2x^2 (x^2 + q^4y^2 + p^4z^2) \biggr] </math>

<math>~=</math>

<math>~2y \biggl\{ (yz)^2 \biggl[ a^2q^4 - a^2q^4\biggr] + (xz)^2\biggl[ b^2q^4 -a^2 - c^2p^4\biggr] + (xy)^2 \biggl[ c^2q^4 - c^2q^4 \biggr] - a^2 p^4z^4 - c^2x^4 \biggr\} </math>

<math>~=</math>

<math>~2y \biggl[ x^2z^2 ( b^2q^4 -a^2 - c^2p^4 ) - a^2 p^4z^4 - c^2x^4 \biggr] \, ; </math>

<math>~ \biggl[ \frac{2\mathfrak{A}\mathfrak{B}}{\lambda_3} \biggr] \frac{\partial \lambda_3}{\partial z}</math>

<math>~=</math>

<math>~ \mathfrak{B} \biggl[ 2p^4z \biggr] - \mathfrak{A}\biggl[ 2z(a^2 y^2 + b^2x^2)\biggr] </math>

<math>~=</math>

<math>~2z \biggl[ p^4[a^2(yz)^2 + b^2(xz)^2 + c^2(xy)^2] - (a^2 y^2 + b^2x^2)(x^2 + q^4y^2 + p^4z^2) \biggr] </math>

<math>~=</math>

<math>~2z \biggl[ a^2p^4(yz)^2 + b^2p^4(xz)^2 + c^2p^4(xy)^2 - a^2 y^2 (x^2 + q^4y^2 + p^4z^2) - b^2x^2(x^2 + q^4y^2 + p^4z^2) \biggr] </math>

<math>~=</math>

<math>~2z \biggl\{ (yz)^2 \biggl[ a^2p^4 - a^2p^4 \biggr] + (xz)^2 \biggl[ b^2p^4 - b^2p^4 \biggr] + (xy)^2 \biggl[c^2p^4 - a^2 - b^2q^4 \biggr] - a^2 q^4y^4 - b^2x^4 \biggr\} </math>

<math>~=</math>

<math>~2z \biggl[

(xy)^2 ( c^2p^4 - a^2 - b^2q^4 )

- a^2 q^4y^4 - b^2x^4 \biggr] \, . </math>

<math>~ \biggl[ \frac{2\mathfrak{A}\mathfrak{B}}{\lambda_3} \biggr] \frac{\partial \lambda_3}{\partial z}</math>

<math>~=</math>

<math>~2z \biggl[

(xy)^2 ( c^2p^4 - a^2 - b^2q^4 )

- a^2 q^4y^4 - b^2x^4 \biggr] </math>

<math>~=</math>

<math>~2z \biggl[

(xy)^2 ( c^2p^4 - a^2 - b^2q^4 )

\pm 2abq^2(xy)^2 - (aq^2y^2 \pm bx^2)^2 \biggr] </math>

<math>~=</math>

<math>~2z \biggl[

(xy)^2 ( c^2p^4 - a^2 - b^2q^4 

\pm 2abq^2) - (aq^2y^2 \pm bx^2)^2 \biggr] </math>

<math>~=</math>

<math>~2z \biggl[

(xy)^2 [ c^2p^4 -(a \pm bq^2)^2

\pm 4abq^2] - (aq^2y^2 \pm bx^2)^2 \biggr] \, . </math>

<math>~ \biggl[ \frac{2\mathfrak{A}\mathfrak{B}}{\lambda_3} \biggr] \frac{\partial \lambda_3}{\partial z}</math>

<math>~=</math>

<math>~-2z \biggl[ (aq^2y^2 + bx^2)^2 - 4abq^2 (xy)^2 \biggr] </math>

<math>~=</math>

<math>~ -2z (aq^2y^2 - bx^2)^2 \, . </math>

<math>~ \biggl[ \frac{2\mathfrak{A}\mathfrak{B}}{\lambda_3} \biggr] \frac{\partial \lambda_3}{\partial x}</math>

<math>~=</math>

<math>~2x \biggl[ y^2z^2(a^2 - q^4b^2 - c^2p^4) - c^2 q^4y^4 - b^2p^4z^4 \biggr] </math>

<math>~=</math>

<math>~2x \biggl[ y^2z^2(a^2 - q^4b^2 - c^2p^4) - (cq^2y^2 \pm bp^2z^2)^2 \pm 2bcq^2y^2p^2z^2 \biggr] </math>

<math>~=</math>

<math>~2x \biggl[ (yz)^2(a^2 - q^4b^2 - c^2p^4 \pm 2bcq^2p^2) - (cq^2y^2 \pm bp^2z^2)^2 \biggr] </math>

<math>~=</math>

<math>~2x \biggl[ (yz)^2[a^2 - (bq^2 \pm cp^2)^2 \pm 4bcq^2p^2] - (cq^2y^2 \pm bp^2z^2)^2 \biggr] \, . </math>

<math>~ \biggl[ \frac{2\mathfrak{A}\mathfrak{B}}{\lambda_3} \biggr] \frac{\partial \lambda_3}{\partial y}</math>

<math>~=</math>

<math>~2y \biggl[ x^2z^2 ( b^2q^4 -a^2 - c^2p^4 ) - a^2 p^4z^4 - c^2x^4 \biggr] </math>

<math>~=</math>

<math>~2y \biggl[ x^2z^2 ( b^2q^4 -a^2 - c^2p^4 ) - (ap^2z^2 \pm cx^2)^2 \pm 2acx^2p^2z^2 \biggr] </math>

<math>~=</math>

<math>~2y \biggl[ x^2z^2 ( b^2q^4 -a^2 - c^2p^4 \pm 2acp^2 ) - (ap^2z^2 \pm cx^2)^2 \biggr] </math>

<math>~=</math>

<math>~2y \biggl[ (xz)^2 [ b^2q^4 -(a\pm cp^2)^2 \pm 4acp^2 ] - (ap^2z^2 \pm cx^2)^2 \biggr] \, . </math>

<math>~ \biggl[ \frac{2\mathfrak{A}\mathfrak{B}}{\lambda_3} \biggr] \frac{\partial \lambda_3}{\partial x}</math>

<math>~=</math>

<math>~ - 2x \biggl[ (cq^2y^2 + bp^2z^2)^2 - 4bcq^2 y^2 p^2 z^2 \biggr] </math>

<math>~=</math>

<math>~ - 2x (cq^2y^2 - bp^2z^2)^2 \, ; </math>

<math>~ \biggl[ \frac{2\mathfrak{A}\mathfrak{B}}{\lambda_3} \biggr] \frac{\partial \lambda_3}{\partial y}</math>

<math>~=</math>

<math>~- 2y \biggl[ (ap^2z^2 + cx^2)^2 - 4acx^2 p^2 z^2 \biggr] </math>

<math>~=</math>

<math>~ - 2y(ap^2z^2 - cx^2)^2 \, . </math>

Given,

the three relevant partial derivatives are:

<math>~h_3^{-2}</math>

<math>~\equiv</math>

<math>~ \biggl( \frac{\partial \lambda_3}{\partial x} \biggr)^2 + \biggl( \frac{\partial \lambda_3}{\partial y} \biggr)^2 + \biggl( \frac{\partial \lambda_3}{\partial z} \biggr)^2 </math>

<math>~</math>

<math>~=</math>

<math>~ \biggl[ \frac{\lambda_3}{\mathfrak{A}\mathfrak{B}} \biggr]^2 \biggl\{ \biggl[ - x (cq^2y^2 - bp^2z^2)^2 \biggr]^2 + \biggl[ - y(ap^2z^2 - cx^2)^2 \biggr]^2 + \biggl[ -z (aq^2y^2 - bx^2)^2 \biggr]^2 \biggr\} </math>

<math>~</math>

<math>~=</math>

<math>~ \biggl[ \frac{\lambda_3}{\mathfrak{A}\mathfrak{B}} \biggr]^2 \biggl\{ x^2 (cq^2y^2 - bp^2z^2)^4 + y^2 (ap^2z^2 - cx^2)^4 + z^2 (aq^2y^2 - bx^2)^4 \biggr\} </math>

<math>~\Rightarrow ~~~h_3</math>

<math>~=</math>

<math>~ \biggl[ \frac{\mathfrak{A}\mathfrak{B}}{\lambda_3} \biggr]\frac{1}{\mathfrak{C}} \, , </math>

<math>~\mathfrak{C}</math>

<math>~\equiv</math>

<math>~ \biggl[ x^2 (cq^2y^2 - bp^2z^2)^4 + y^2 (ap^2z^2 - cx^2)^4 + z^2 (aq^2y^2 - bx^2)^4 \biggr]^{1 / 2} \, . </math>

<math>~\gamma_{31} \equiv h_3 \biggl( \frac{\partial \lambda_3}{\partial x} \biggr)</math>

<math>~=</math>

<math>~ - x (cq^2y^2 - bp^2z^2)^2\biggl[ \frac{1}{\mathfrak{C}} \biggr] \, , </math>

<math>~\gamma_{32} \equiv h_3 \biggl( \frac{\partial \lambda_3}{\partial y} \biggr)</math>

<math>~=</math>

<math>~ - y(ap^2z^2 - cx^2)^2 \biggl[ \frac{1}{\mathfrak{C}} \biggr] \, , </math>

<math>~ \gamma_{33} \equiv h_3 \biggl( \frac{\partial \lambda_3}{\partial y} \biggr)</math>

<math>~=</math>

<math>~ -z (aq^2y^2 - bx^2)^2 \biggl[ \frac{1}{\mathfrak{C}} \biggr] \, . </math>

<math>~[\hat{e}_3]_\mathrm{guess}</math>

<math>~=</math>

<math>~\frac{1}{\mathfrak{C}} \biggl\{ - \hat\imath \biggl[ x (cq^2y^2 - bp^2z^2)^2 \biggr] - \hat\jmath \biggl[ y(ap^2z^2 - cx^2)^2 \biggr] - \hat{k} \biggl[ z (aq^2y^2 - bx^2)^2 \biggr] \biggr\} \, . </math>

<math>~[\hat{e}_3]_\mathrm{needed}</math>

<math>~=</math>

<math>~\mathfrak{A}^{-1 / 2} \mathfrak{B}^{-1 / 2} \biggl\{ \hat\imath \biggl[ x(cq^2y^2 - b p^2z^2) \biggr] + \hat\jmath \biggl[ y(ap^2z^2 - cx^2) \biggr] + \hat{k} \biggl[ z(bx^2 - aq^2y^2) \biggr] \biggr\} \, . </math>

Note that, <math>~[\hat{e}_3]_\mathrm{needed} \cdot [\hat{e}_3]_\mathrm{needed} = 1</math> implies that,

But we also know that (see, for example, immediately below),

<math>~\mathfrak{A} = \ell_{3D}^{-2}</math>

<math>~=</math>

<math>~(x^2 + q^4y^2 + p^4z^2)</math>

<math>~\mathfrak{B} = (abc)^2\mathfrak{L}^2</math>

<math>~=</math>

<math>~ [a^2(yz)^2 + b^2(xz)^2 + c^2(xy)^2] \, , </math>

<math>~\mathfrak{A} \mathfrak{B}</math>

<math>~=</math>

<math>~ (x^2 + q^4y^2 + p^4z^2)[a^2(yz)^2 + b^2(xz)^2 + c^2(xy)^2] </math>

<math>~=</math>

<math>~ x^2 [a^2(yz)^2 + b^2(xz)^2 + c^2(xy)^2] + q^4y^2 [a^2(yz)^2 + b^2(xz)^2 + c^2(xy)^2] + p^4z^2[a^2(yz)^2 + b^2(xz)^2 + c^2(xy)^2] </math>

<math>~=</math>

<math>~x^2y^2z^2[a^2 + b^2q^4 +c^2p^4] + x^4 [b^2 z^2 + c^2 y^2] + q^4y^4 [a^2 z^2 + c^2 x^2] + p^4z^4[a^2 y^2 + b^2 x^2] </math>

<math>~\mathfrak{C}^2</math>

<math>~\equiv</math>

<math>~ x^2 (cq^2y^2 - bp^2z^2)^4 + y^2 (ap^2z^2 - cx^2)^4 + z^2 (aq^2y^2 - bx^2)^4

\, .

</math>

© 2014 - 2021 by Joel E. Tohline
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Recommended citation:   Tohline, Joel E. (2021), The Structure, Stability, & Dynamics of Self-Gravitating Fluids, a (MediaWiki-based) Vistrails.org publication, https://www.vistrails.org/index.php/User:Tohline/citation