Alan P. Apr 14, 2015 \displaystyle{\sqrt[{{3}}]{{{5}{x}-{4}}}}+{7}={10} isolate the cube root \displaystyle{\sqrt[{{3}}]{{{5}{z}-{4}}}}={3} cube both sides \displaystyle{5}{z}-{4}={27} ...

I found: \displaystyle{8} Explanation: Considering that: \displaystyle{\left({a}-{b}\right)}^{{2}}={a}^{{2}}-{2}{a}{b}+{b}^{{2}} you get: \displaystyle{\left(\sqrt{{{18}}}-\sqrt{{{2}}}\right)}^{{2}}= ...

Define a_n = (\sqrt{2} + \sqrt{3})^{2n} for n \in \mathbb{N}. Because\begin{align*} a_n + \frac{1}{a_n} &= (\sqrt{3} + \sqrt{2})^{2n} + (\sqrt{3} - \sqrt{2})^{2n}\\ &= (5 + 2\sqrt{6})^n + (5 - ...

sqrt(225m13n12)  Simplified Root :      15 m6n6 • sqrt(m)  Simplify :  sqrt(225m13n12)  Step  1  :Simplify the Integer part of the SQRT Factor 225 into its prime factors            225 = 32 • 52 ...

You use the formula \displaystyle{\left({a}-{b}\right)}^{{2}}={a}^{{2}}-{2}{a}{b}+{b}^{{2}} Explanation: \displaystyle=\sqrt{{19}}^{{2}}-{2}\cdot\sqrt{{19}}\cdot\sqrt{{2}}+\sqrt{{2}}^{{2}} ...

\begin{align} \left(2^{2^{k-1}}\right)^2 & = \left(2^{2^{k-1}}\right)\left(2^{2^{k-1}}\right)\tag{1}\\ & = \left(2^{2^{k-1}+2^{k-1}}\right)\tag{2}\\ & = \left(2^{2(2^{k-1})}\right)\tag{3}\\ & = 2^{2^{k}}\tag{4}\\ \end{align} ...