We have the following mathematical expression:
![\sqrt[3]{64x^6y^4z^3}](https://img.qammunity.org/2023/formulas/mathematics/college/pqw2vekzpkxc9l3xryh5gtzbsz6kd8wbiw.png)
From which we must find an equivalent expression, To solve this, we must remember a rule of exponents.
![\sqrt[m]{a^n}=a^{(n)/(m)}](https://img.qammunity.org/2023/formulas/mathematics/college/va4n1ek1o5qrg04cfqu2cafj4jlshnht9f.png)
with the above rule we will divide all the exponents of the terms inside the root over 3 and also solve the 64 cubic raiz which is:
![\sqrt[3]{64}=4](https://img.qammunity.org/2023/formulas/mathematics/high-school/oyfqsxlfrbgb3dm4etpvj8j1ror59zvmfc.png)
Now we simplify the mathematical expression:
![\begin{gathered} \sqrt[3]{64x^6y^4z^3} \\ \sqrt[3]{64\cdot}\sqrt[3]{x^6}\cdot\sqrt[3]{y^4^{}}\cdot\sqrt[]{z^3} \\ 4\cdot x^{(6)/(3)}\cdot y^{(4)/(3)}\cdot z^{(3)/(3)} \\ 4x^2\cdot y^{(4)/(3)}\cdot z \end{gathered}](https://img.qammunity.org/2023/formulas/mathematics/college/skoa0e68jthl7qec0hwgl41p1eb9c4wt55.png)
In conclusion, the answer is:
