Evaluate
\frac{x^{4}}{2}+x^{2}+С
Differentiate w.r.t. x
2x\left(x^{2}+1\right)
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\int 2x^{3}+2x\mathrm{d}x
Use the distributive property to multiply 2x by x^{2}+1.
\int 2x^{3}\mathrm{d}x+\int 2x\mathrm{d}x
Integrate the sum term by term.
2\int x^{3}\mathrm{d}x+2\int x\mathrm{d}x
Factor out the constant in each of the terms.
\frac{x^{4}}{2}+2\int x\mathrm{d}x
Since \int x^{k}\mathrm{d}x=\frac{x^{k+1}}{k+1} for k\neq -1, replace \int x^{3}\mathrm{d}x with \frac{x^{4}}{4}. Multiply 2 times \frac{x^{4}}{4}.
\frac{x^{4}}{2}+x^{2}
Since \int x^{k}\mathrm{d}x=\frac{x^{k+1}}{k+1} for k\neq -1, replace \int x\mathrm{d}x with \frac{x^{2}}{2}. Multiply 2 times \frac{x^{2}}{2}.
\frac{x^{4}}{2}+x^{2}+С
If F\left(x\right) is an antiderivative of f\left(x\right), then the set of all antiderivatives of f\left(x\right) is given by F\left(x\right)+C. Therefore, add the constant of integration C\in \mathrm{R} to the result.
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