Find all the zeros. Write the answer in exact form. $$ n(x)=x^{3}-7 x^{2}+11 x+3 $$ If there is more than one answer, separate them with commas. Select "None" if applicable. The zeros of $$ n(x): \square $$

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Solve the equation $$ x^{3}-7x^{2}+11x+3=0 $$.
Solve the equation by following steps:
- step0: Solve for $$x$$:
  $$x^{3}-7x^{2}+11x+3=0$$
- step1: Factor the expression:
  $$\left(x-3ight)\left(x^{2}-4x-1ight)=0$$
- step2: Separate into possible cases:
  $$\begin{align}&x-3=0\&x^{2}-4x-1=0\end{align}$$
- step3: Solve the equation:
  $$\begin{align}&x=3\&x=2+\sqrt{5}\&x=2-\sqrt{5}\end{align}$$
- step4: Rewrite:
  $$x_{1}=2-\sqrt{5},x_{2}=3,x_{3}=2+\sqrt{5}$$
The zeros of the function $$ n(x) = x^{3} - 7x^{2} + 11x + 3 $$ are $$ 2 - \sqrt{5} $$, $$ 3 $$, and $$ 2 + \sqrt{5} $$.
The zeros of $$ n(x) $$ are $$ 2 - \sqrt{5} $$, $$ 3 $$, and $$ 2 + \sqrt{5} $$.

Find all the zeros. Write the answer in exact form. \[ n(x)=x^{3}-7 x^{2}+11 x+3 \] If there is more than one answer, separate them with commas. Select "None" if applicable. The zeros of \( n(x): \square \)

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