Whakaoti mō A
A=\frac{1}{GVY\left(EM\right)^{2}}
V\neq 0\text{ and }M\neq 0\text{ and }E\neq 0\text{ and }Y\neq 0\text{ and }G\neq 0
Whakaoti mō E (complex solution)
E=-\frac{A^{-\frac{1}{2}}G^{-\frac{1}{2}}V^{-\frac{1}{2}}Y^{-\frac{1}{2}}}{M}
E=\frac{A^{-\frac{1}{2}}G^{-\frac{1}{2}}V^{-\frac{1}{2}}Y^{-\frac{1}{2}}}{M}\text{, }V\neq 0\text{ and }A\neq 0\text{ and }Y\neq 0\text{ and }G\neq 0\text{ and }M\neq 0
Tohaina
Kua tāruatia ki te papatopenga
M^{2}EGYE\times 1AV=1
Whakareatia te M ki te M, ka M^{2}.
M^{2}E^{2}GY\times 1AV=1
Whakareatia te E ki te E, ka E^{2}.
AGVYE^{2}M^{2}=1
Whakaraupapatia anō ngā kīanga tau.
GVYE^{2}M^{2}A=1
He hanga arowhānui tō te whārite.
\frac{GVYE^{2}M^{2}A}{GVYE^{2}M^{2}}=\frac{1}{GVYE^{2}M^{2}}
Whakawehea ngā taha e rua ki te GVYE^{2}M^{2}.
A=\frac{1}{GVYE^{2}M^{2}}
Mā te whakawehe ki te GVYE^{2}M^{2} ka wetekia te whakareanga ki te GVYE^{2}M^{2}.
A=\frac{1}{GVY\left(EM\right)^{2}}
Whakawehe 1 ki te GVYE^{2}M^{2}.
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