(1 point) Consider the function $$ f(x)=2 x^{9}+3 x^{5}-4 x^{2}-4 $$. Enter an antiderivative of $$ f(x) $$

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We begin by integrating term by term.

1. For the term $$2x^9$$:
   $$
   \int 2x^9\,dx = 2\int x^9\,dx = 2\cdot\frac{x^{10}}{10} = \frac{x^{10}}{5}.
   $$

2. For the term $$3x^5$$:
   $$
   \int 3x^5\,dx = 3\int x^5\,dx = 3\cdot\frac{x^6}{6} = \frac{x^6}{2}.
   $$

3. For the term $$-4x^2$$:
   $$
   \int -4x^2\,dx = -4\int x^2\,dx = -4\cdot\frac{x^3}{3} = -\frac{4x^3}{3}.
   $$

4. For the constant term $$-4$$:
   $$
   \int -4\,dx = -4x.
   $$

Combining all the integrated terms, an antiderivative of $$ f(x) $$ is:
$$
\frac{x^{10}}{5} + \frac{x^6}{2} - \frac{4x^3}{3} - 4x + C,
$$
where $$ C $$ is the constant of integration.
An antiderivative of $$ f(x) $$ is $$ \frac{x^{10}}{5} + \frac{x^6}{2} - \frac{4x^3}{3} - 4x + C $$.

(1 point) Consider the function .
Enter an antiderivative of

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