Find $ \int_0^{\frac{\pi}{2}} \sin^2 x \, dx $. (i) By considering $ f(x) = 3\log x - x $, show that the curve $ y = 3\log x $ and the line $ y = x $ meet at a point $ P $ whose $ x $-coordinate is between 1.5 and 2. (ii) Use one application of Newton's method, starting at $ x = 1.5 $, to find an approximation to the $ x $-coordinate of $ P $. Give your answer correct to two decimal places. (c) Sophie has five coloured blocks: one red, one blue, one green, one yellow and one white. She stacks two, three or four or five blocks on top of one another to form a vertical tower. (i) How many different towers are there that she could form that are three blocks high? (ii) How many different towers can she form in total? (d) The points $ P, Q $ and $ T $ lie on a circle. The line $ MN $ is tangent to the circle at $ T $ with $ M $ chosen so that $ QM $ is perpendicular to $ MN $. The point $ K $ on $ PQ $ is chosen so that $ TK $ is perpendicular to $ PQ $ as shown in the diagram. (i) Show that $ QKT M $ is a cyclic quadrilateral. (ii) Show that $ \angle KMT = \angle KQT. $ (iii) Hence, or otherwise, show that $ MK $ is parallel to $ TP. $

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Find $ \int_0^{\frac{\pi}{2}} \sin^2 x \, dx $ - HSC - SSCE Mathematics Extension 1 - Question 3 - 2006 - Paper 1

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Find $ \int_0^{\frac{\pi}{2}} \sin^2 x \, dx $. (i) By considering $ f(x) = 3\log x - x $, show that the curve $ y = 3\log x $ and the line $ y = x $ meet a... show full transcript

Worked Solution & Example Answer:Find $ \int_0^{\frac{\pi}{2}} \sin^2 x \, dx $ - HSC - SSCE Mathematics Extension 1 - Question 3 - 2006 - Paper 1

Step 1

Find $ \int_0^{\frac{\pi}{2}} \sin^2 x \, dx $

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Answer

To solve the integral ( I = \int_0^{\frac{\pi}{2}} \sin^2 x , dx ), we can use the formula:

$\sin^2 x = \frac{1 - \cos(2x)}{2}$

Thus, the integral becomes:

$I = \int_0^{\frac{\pi}{2}} \frac{1 - \cos(2x)}{2} dx$

This separates into two integrals:

$I = \frac{1}{2} \int_0^{\frac{\pi}{2}} 1 \, dx - \frac{1}{2} \int_0^{\frac{\pi}{2}} \cos(2x) \, dx$

Calculating the first integral:

$\int_0^{\frac{\pi}{2}} 1 \, dx = \frac{\pi}{2}$

Calculating the second integral:

$\int_0^{\frac{\pi}{2}} \cos(2x) \, dx = \left[ \frac{\sin(2x)}{2} \right]_0^{\frac{\pi}{2}} = 0$

Therefore, we get:

$I = \frac{1}{2} \left( \frac{\pi}{2} - 0 \right) = \frac{\pi}{4}$

Step 2

(i) By considering $ f(x) = 3\log x - x $, show that the curve $ y = 3\log x $ and the line $ y = x $ meet at a point $ P $ whose $ x $-coordinate is between 1.5 and 2.

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Answer

To find the intersection points of ( y = 3\log x ) and ( y = x ), we need to solve:

$3\log x - x = 0$

We can use values between 1.5 and 2 to evaluate:

For ( x = 1.5 ):

( f(1.5) = 3\log(1.5) - 1.5 \approx 0.21 ) ( (positive) )
For ( x = 2 ):

( f(2) = 3\log(2) - 2 \approx -0.56 ) ( (negative) )

Since ( f(1.5) > 0 ) and ( f(2) < 0 ), by the Intermediate Value Theorem, there exists a point ( P ) in the interval ( (1.5, 2) ).

Step 3

(ii) Use one application of Newton's method, starting at $ x = 1.5 $, to find an approximation to the $ x $-coordinate of $ P $.

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Answer

Newton's method updates points using the formula:

$x_{n+1} = x_n - \frac{f(x_n)}{f'(x_n)}$

We need the derivative:

$f'(x) = \frac{3}{x} - 1$

Starting at ( x_0 = 1.5 ):

Calculate ( f(1.5) ) and ( f'(1.5) ):
- ( f(1.5) \approx 0.21 )
- ( f'(1.5) \approx 0.67 )
Update using Newton's method:

Repeat this process for better approximation until desired accuracy is achieved.

Step 4

(i) How many different towers are there that she could form that are three blocks high?

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Answer

To find the number of different towers of height 3, we choose 3 blocks from 5 available blocks. The formula for combinations is:

$C(n, k) = \frac{n!}{k!(n-k)!}$

For ( n = 5 ) blocks and ( k = 3 ):

$C(5, 3) = \frac{5!}{3!(5-3)!} = \frac{5\times 4}{2\times 1} = 10$

Thus, there are 10 different combinations. However, each block can be arranged in any order:

Arrange 3 blocks:
- Total arrangements: ( 3! = 6 )

Total towers of height 3:

$\text{Total} = 10 \times 6 = 60$

Step 5

(ii) How many different towers can she form in total?

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Answer

To find the total number of towers of height 2, 3, 4 and 5, we need to calculate:

For 2 blocks: ( C(5, 2) \times 2! )
For 3 blocks: ( C(5, 3) \times 3! )
For 4 blocks: ( C(5, 4) \times 4! )
For 5 blocks: ( C(5, 5) \times 5! )

Total:

For 2 blocks: $C(5, 2) = 10 \Rightarrow Total = 10 \times 2 = 20$ For 3 blocks: $C(5, 3) = 10 \Rightarrow Total = 10 \times 6 = 60$ For 4 blocks: $C(5, 4) = 5 \Rightarrow Total = 5 \times 24 = 120$ For 5 blocks: $C(5, 5) = 1 \Rightarrow Total = 1 \times 120 = 120$

Adding up all possibilities: $\text{Total} = 20 + 60 + 120 + 120 = 320$

Step 6

(i) Show that $ QKT M $ is a cyclic quadrilateral.

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Answer

A cyclic quadrilateral has opposite angles that sum up to 180 degrees. To show that ( QKT M ) is cyclic, we can use the angle at point ( K ):

Show that:

$\angle QKM + \angle QTM = 180^\circ$

Using the inscribed angle theorem considering the circle. If these angles sum to 180, ( QKT M ) is cyclic.

Step 7

(ii) Show that $ \angle KMT = \angle KQT. $

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To show the angles are equal: Using the properties of cyclic quadrilaterals, we know that angles subtended by the same arc in a circle are equal. Thus:

$\angle KMT \equiv \angle KQT$

Since both angles subtend the same arc ( KT ), this holds true.

Step 8

(iii) Hence, or otherwise, show that $ MK $ is parallel to $ TP. $

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Answer

From previous results, we have proved that the corresponding angles:

$\angle KMT = \angle KQT$

Since alternate angles are equal, it follows that:

$MK \parallel TP$ .

Thus, shown by angle properties of parallel lines.

Find \( \int_0^{\frac{\pi}{2}} \sin^2 x \, dx \) - HSC - SSCE Mathematics Extension 1 - Question 3 - 2006 - Paper 1

Worked Solution & Example Answer:Find \( \int_0^{\frac{\pi}{2}} \sin^2 x \, dx \) - HSC - SSCE Mathematics Extension 1 - Question 3 - 2006 - Paper 1

Find \( \int_0^{\frac{\pi}{2}} \sin^2 x \, dx \)

(i) By considering \( f(x) = 3\log x - x \), show that the curve \( y = 3\log x \) and the line \( y = x \) meet at a point \( P \) whose \( x \)-coordinate is between 1.5 and 2.

(ii) Use one application of Newton's method, starting at \( x = 1.5 \), to find an approximation to the \( x \)-coordinate of \( P \).

(i) How many different towers are there that she could form that are three blocks high?

(ii) How many different towers can she form in total?

(i) Show that \( QKT M \) is a cyclic quadrilateral.

(ii) Show that \( \angle KMT = \angle KQT. \)

(iii) Hence, or otherwise, show that \( MK \) is parallel to \( TP. \)

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