3.3.5. $$ \left(\frac{1}{3}\right)^{-2}+\left(\frac{1}{2}\right)^{-3} $$ 3.3. Solve for $$ x $$ 3.3.1. $$ 3 x=\frac{1}{9} $$ 3.3.2. $$ 2 x^{3}-1=53 $$ 3.3.3. $$ x^{2}=81 $$

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Solve the equation $$ 3x=\frac{1}{9} $$.
Solve the equation by following steps:
- step0: Solve for $$x$$:
  $$3x=\frac{1}{9}$$
- step1: Multiply by the reciprocal:
  $$3x	imes \frac{1}{3}=\frac{1}{9}	imes \frac{1}{3}$$
- step2: Multiply:
  $$x=\frac{1}{27}$$
Solve the equation $$ 2x^{3}-1=53 $$.
Solve the equation by following steps:
- step0: Solve for $$x$$:
  $$2x^{3}-1=53$$
- step1: Move the constant to the right side:
  $$2x^{3}=53+1$$
- step2: Add the numbers:
  $$2x^{3}=54$$
- step3: Divide both sides:
  $$\frac{2x^{3}}{2}=\frac{54}{2}$$
- step4: Divide the numbers:
  $$x^{3}=27$$
- step5: Simplify the equation:
  $$\sqrt[3]{x^{3}}=\sqrt[3]{27}$$
- step6: Calculate:
  $$x=\sqrt[3]{27}$$
- step7: Evaluate:
  $$x=3$$
Solve the equation $$ x^{2}=81 $$.
Solve the quadratic equation by following steps:
- step0: Solve using square roots:
  $$x^{2}=81$$
- step1: Simplify the expression:
  $$x=\pm \sqrt{81}$$
- step2: Simplify the expression:
  $$x=\pm 9$$
- step3: Separate into possible cases:
  $$\begin{align}&x=9\&x=-9\end{align}$$
- step4: Rewrite:
  $$x_{1}=-9,x_{2}=9$$
The solutions to the given equations are:
1. $$ x = \frac{1}{27} $$
2. $$ x = 3 $$
3. $$ x = -9 $$ or $$ x = 9 $$
The solutions are: 1. $$ x = \frac{1}{27} $$ 2. $$ x = 3 $$ 3. $$ x = -9 $$ or $$ x = 9 $$

3.3.5. \( \left(\frac{1}{3}\right)^{-2}+\left(\frac{1}{2}\right)^{-3} \) 3.3. Solve for \( x \) 3.3.1. \( 3 x=\frac{1}{9} \) 3.3.2. \( 2 x^{3}-1=53 \) 3.3.3. \( x^{2}=81 \)

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