Photo AI
(a) Use the substitution $x = u^2$, $u > 0$, to show that \[ \int \frac{1}{x(2\sqrt{x} - 1)} \, dx = \int \frac{2}{u(2u - 1)} \, du \] (b) Hence show that \[ \int_0^9 \frac{1}{x(2\sqrt{x} - 1)} \, dx = 2 \ln \left( \frac{a}{b} \right) \] where $a$ and $b$ are integers to be determined. - Edexcel - A-Level Maths Pure - Question 6 - 2013 - Paper 9
Question 6
![(a)-Use-the-substitution-$x-=-u^2$,-$u->-0$,-to-show-that-\[-\int-\frac{1}{x(2\sqrt{x}---1)}-\,-dx-=-\int-\frac{2}{u(2u---1)}-\,-du-\]--(b)-Hence-show-that-\[-\int_0^9-\frac{1}{x(2\sqrt{x}---1)}-\,-dx-=-2-\ln-\left(-\frac{a}{b}-\right)-\]-where-$a$-and-$b$-are-integers-to-be-determined.-Edexcel-A-Level Maths Pure-Question 6-2013-Paper 9.png](https://cdn.simplestudy.cloud/assets/backend/uploads/question/MathsPure_2013_9_1_QP_5_2013.jpg)
(a) Use the substitution $x = u^2$, $u > 0$, to show that \[ \int \frac{1}{x(2\sqrt{x} - 1)} \, dx = \int \frac{2}{u(2u - 1)} \, du \] (b) Hence show that \[ \int_0... show full transcript
Worked Solution & Example Answer:(a) Use the substitution $x = u^2$, $u > 0$, to show that \[ \int \frac{1}{x(2\sqrt{x} - 1)} \, dx = \int \frac{2}{u(2u - 1)} \, du \] (b) Hence show that \[ \int_0^9 \frac{1}{x(2\sqrt{x} - 1)} \, dx = 2 \ln \left( \frac{a}{b} \right) \] where $a$ and $b$ are integers to be determined. - Edexcel - A-Level Maths Pure - Question 6 - 2013 - Paper 9
Step 1
Step 2
Hence show that
Answer
We need to evaluate the integral:
Using the substitution already established, we find that:
To integrate,
- Split the fraction:
Solving for constants and gives , .
- Integrating the parts:
- Now applying limits from to ,
The limit at approaches , but the result leads to:
Thus, rewriting in the required format gives:
where and .