A-Level AQA Maths Pure Differentiation: 8 (a) Given that $u = 2^x$, writ

8 (a) Given that $u = 2^x$, write down an expression for $ \frac{du}{dx} $ 8 (b) Find the exact value of $ \int_{2}^{3} \sqrt{3 + 2x} \, dx $ Fully justify your answer. - AQA - A-Level Maths Pure - Question 8 - 2017 - Paper 1

Question 8

$8-(a)-Given-that-$u-=-2^x$,-write-down-an-expression-for-$-\frac{du}{dx}-$----8-(b)-Find-the-exact-value-of-$-\int_{2}^{3}-\sqrt{3-+-2x}-\,-dx-$---Fully-justify-your-answer.-AQA-A-Level Maths Pure-Question 8-2017-Paper 1.png$

8 (a) Given that $u = 2^x$, write down an expression for $ \frac{du}{dx} $ 8 (b) Find the exact value of $ \int_{2}^{3} \sqrt{3 + 2x} \, dx $ Fully justify ... show full transcript

Worked Solution & Example Answer:8 (a) Given that $u = 2^x$, write down an expression for $ \frac{du}{dx} $ 8 (b) Find the exact value of $ \int_{2}^{3} \sqrt{3 + 2x} \, dx $ Fully justify your answer. - AQA - A-Level Maths Pure - Question 8 - 2017 - Paper 1

Step 1

Given that $u = 2^x$, write down an expression for $ \frac{du}{dx} $

96%

114 rated

Answer

To find ( \frac{du}{dx} ), we differentiate ( u = 2^x ) using the formula for the derivative of an exponential function:

$\frac{du}{dx} = 2^x \ln(2)$

Step 2

Find the exact value of $ \int_{2}^{3} \sqrt{3 + 2x} \, dx $

99%

104 rated

Answer

To solve the integral ( I = \int_{2}^{3} \sqrt{3 + 2x} , dx ), we start by simplifying the integrand. Let:

Substitution:

Let ( u = 3 + 2x ) Thus, ( \frac{du}{dx} = 2 ) or ( dx = \frac{du}{2} )

Changing the limits:
- When ( x = 2, \ u = 3 + 4 = 7 )
- When ( x = 3, \ u = 3 + 6 = 9 )
Now substituting: $I = \int_{7}^{9} \sqrt{u} \frac{du}{2}$
1. Integrate:
We have: $I = \frac{1}{2} \int_{7}^{9} u^{1/2} \ du \ = \frac{1}{2} \left[ \frac{u^{3/2}}{\frac{3}{2}} \right]_{7}^{9} = \frac{1}{3} \left[ u^{3/2} \right]_{7}^{9}$

Evaluating at the limits: $I = \frac{1}{3} \left[ 9^{3/2} - 7^{3/2} \right]$ Since ( 9^{3/2} = 27 ) and ( 7^{3/2} = 7 \sqrt{7} $$:

$I = \frac{1}{3} \left[ 27 - 7\sqrt{7} \right]$ Hence, the value of the integral is: $I = \frac{27 - 7\sqrt{7}}{3}$

8 (a) Given that $u = 2^x$, write down an expression for \( \frac{du}{dx} \) 8 (b) Find the exact value of \( \int_{2}^{3} \sqrt{3 + 2x} \, dx \) Fully justify your answer. - AQA - A-Level Maths Pure - Question 8 - 2017 - Paper 1

Worked Solution & Example Answer:8 (a) Given that $u = 2^x$, write down an expression for \( \frac{du}{dx} \) 8 (b) Find the exact value of \( \int_{2}^{3} \sqrt{3 + 2x} \, dx \) Fully justify your answer. - AQA - A-Level Maths Pure - Question 8 - 2017 - Paper 1

Given that $u = 2^x$, write down an expression for \( \frac{du}{dx} \)

Find the exact value of \( \int_{2}^{3} \sqrt{3 + 2x} \, dx \)

Join the A-Level students using SimpleStudy...