Final answer to the problem
Step-by-step Solution
How should I solve this problem?
- Choisir une option
- Write in simplest form
- Simplifier
- Facteur
- Trouver les racines
- Load more...
Apply the formula: $a+b$$=\left(\sqrt[3]{a}+\sqrt[3]{\left|b\right|}\right)\left(\sqrt[3]{a^{2}}-\sqrt[3]{a}\sqrt[3]{\left|b\right|}+\sqrt[3]{\left|b\right|^{2}}\right)$, where $a=64a^3$ and $b=343$
Learn how to solve division polynomiale longue problems step by step online.
$\frac{\left(\sqrt[3]{64a^3}+\sqrt[3]{343}\right)\left(\sqrt[3]{\left(64a^3\right)^{2}}-\sqrt[3]{343}\sqrt[3]{64a^3}+\sqrt[3]{\left(343\right)^{2}}\right)}{4a+7}$
Learn how to solve division polynomiale longue problems step by step online. (64a^3+343)/(4a+7). Apply the formula: a+b=\left(\sqrt[3]{a}+\sqrt[3]{\left|b\right|}\right)\left(\sqrt[3]{a^{2}}-\sqrt[3]{a}\sqrt[3]{\left|b\right|}+\sqrt[3]{\left|b\right|^{2}}\right), where a=64a^3 and b=343. Apply the formula: a^b=a^b, where a=343, b=\frac{1}{3} and a^b=\sqrt[3]{343}. Apply the formula: a^b=a^b, where a=343, b=\frac{1}{3} and a^b=\sqrt[3]{343}. Apply the formula: ab=ab, where ab=- 7\sqrt[3]{64a^3}, a=-1 and b=7.
