8. Evaluate the indefinite integral. (Use C for the constant of integration.) $$ \int \frac{e^{u}}{\left(3-e^{u}\right)^{2}} d u $$

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Calculate the integral $$ \int \frac{e^{u}}{(3-e^{u})^{2}} du $$.
Evaluate the integral by following steps:
- step0: Evaluate using substitution:
  $$\int \frac{e^{u}}{\left(3-e^{u}ight)^{2}} du$$
- step1: Use the substitution $$du=e^{-u} dt$$ to transform the integral$$:$$
  $$\int \frac{e^{u}}{\left(3-e^{u}ight)^{2}}	imes e^{-u} dt$$
- step2: Simplify:
  $$\int \frac{1}{\left(3-e^{u}ight)^{2}} dt$$
- step3: Use the substitution $$t=e^{u}$$ to transform the integral$$:$$
  $$\int \frac{1}{\left(3-e^{\ln{\left(tight)}}ight)^{2}} dt$$
- step4: Transform the expression:
  $$\int \frac{1}{\left(3-tight)^{2}} dt$$
- step5: Use the substitution $$dt=-1 dv$$ to transform the integral$$:$$
  $$\int \frac{1}{\left(3-tight)^{2}}	imes \left(-1ight) dv$$
- step6: Simplify:
  $$\int -\frac{1}{\left(3-tight)^{2}} dv$$
- step7: Use the substitution $$v=3-t$$ to transform the integral$$:$$
  $$\int -\frac{1}{v^{2}} dv$$
- step8: Use properties of integrals:
  $$-\int \frac{1}{v^{2}} dv$$
- step9: Evaluate the integral:
  $$-\frac{v^{-2+1}}{-2+1}$$
- step10: Simplify:
  $$-\frac{v^{-1}}{-1}$$
- step11: Calculate:
  $$v^{-1}$$
- step12: Substitute back:
  $$\left(3-tight)^{-1}$$
- step13: Substitute back:
  $$\left(3-e^{u}ight)^{-1}$$
- step14: Express with a positive exponent:
  $$\frac{1}{3-e^{u}}$$
- step15: Add the constant of integral C:
  $$\frac{1}{3-e^{u}} + C, C \in \mathbb{R}$$
The indefinite integral of $$ \frac{e^{u}}{(3-e^{u})^{2}} $$ with respect to $$ u $$ is $$ \frac{1}{3-e^{u}} + C $$, where $$ C $$ is the constant of integration.
The integral $$ \int \frac{e^{u}}{(3-e^{u})^{2}} du $$ equals $$ \frac{1}{3-e^{u}} + C $$.

8. Evaluate the indefinite integral. (Use C for the constant of integration.) \[ \int \frac{e^{u}}{\left(3-e^{u}\right)^{2}} d u \]

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