vault backup: 2025-09-03 12:30:04
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arc
@ -23,4 +23,13 @@ $$\int xe^{2x}dx$$
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- $dv = e^{2x}dx$
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- $dv = e^{2x}dx$
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- $v = \frac{1}{2}e^{2x}$ - The antiderivative of $dv$.
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- $v = \frac{1}{2}e^{2x}$ - The antiderivative of $dv$.
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2. Looking back at the integration by parts formula, we know that:
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2. Looking back at the integration by parts formula, we know that:
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$$ \int udv = uv - \int v du $$
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$$ \int udv = uv - \int v du $$
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$$ \int xe^{2x}dx = (\frac{1}{2}e^{2x})(x)-\int (\frac{1}{2}e^{2x}) (1dx) $$
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3. The remaining integral can be solved with $u$ substitution, but we've already defined $u$, so we use $w$ as a replacement.
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- $w = 2x$
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- $dw = 2dx$
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- $\frac{1}{2}dw=dx$
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1. Substituting $w$ and $dw$ into the integral:
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$$ \int \frac{1}{2}e^w \frac{1}{2}dw $$
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2. This gives an integral that can be computed naively
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$$ \int\frac{1}{2}e^{w} $$
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