6. (i) Without using a calculator, find the exact value of $(\sin 22.5^{\circ} + \cos 22.5^{\circ})^{2}$ You must show each stage of your working. (ii) (a) Show that $\cos 2\theta + \sin \theta = 1$ may be written in the form $k \sin^{2}\theta - \sin \theta = 0$, stating the value of $k$. (b) Hence solve, for $0 < \theta < 360^{\circ}$, the equation $\cos 2\theta + \sin \theta = 1$

A-Level Edexcel Maths Pure Differentiation: 6. (i) Without using a calculato

6. (i) Without using a calculator, find the exact value of $(\sin 22.5^{\circ} + \cos 22.5^{\circ})^{2}$ You must show each stage of your working - Edexcel - A-Level Maths Pure - Question 27 - 2013 - Paper 1

Question 27

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6. (i) Without using a calculator, find the exact value of $(\sin 22.5^{\circ} + \cos 22.5^{\circ})^{2}$ You must show each stage of your working. (ii) (a) Show tha... show full transcript

Worked Solution & Example Answer:6. (i) Without using a calculator, find the exact value of $(\sin 22.5^{\circ} + \cos 22.5^{\circ})^{2}$ You must show each stage of your working - Edexcel - A-Level Maths Pure - Question 27 - 2013 - Paper 1

Step 1

Find the exact value of $(\sin 22.5^{\circ} + \cos 22.5^{\circ})^{2}$

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Answer

To find the exact value of $(\sin 22.5^{\circ} + \cos 22.5^{\circ})^{2}$ , we start by applying the identity:

$\sin a + \cos a = \sqrt{2} \sin(a + 45^{\circ})$ .

Thus, we have:

$\sin 22.5^{\circ} + \cos 22.5^{\circ} = \sqrt{2} \sin(22.5^{\circ} + 45^{\circ}) = \sqrt{2} \sin 67.5^{\circ}$ .

Next, using the double angle formula:

$\sin 67.5^{\circ} = \sin(2 \times 22.5^{\circ}) = 2 \sin 22.5^{\circ} \cos 22.5^{\circ}$ .

Hence, substituting back gives us:

$\sin 22.5^{\circ} + \cos 22.5^{\circ} = \sqrt{2} \cdot 2 \sin 22.5^{\circ} \cos 22.5^{\circ}$ .

Finally, squaring this result, we find:

$(\sin 22.5^{\circ} + \cos 22.5^{\circ})^{2} = 1 + \frac{\sqrt{2}}{2}$ .

Step 2

Show that $\cos 2\theta + \sin \theta = 1$ may be written in the form $k \sin^{2}\theta - \sin \theta = 0$, stating the value of $k$.

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Answer

Starting with the equation:

$\cos 2\theta + \sin \theta = 1$ , we can rewrite it as:

$\cos 2\theta = 1 - \sin \theta$ .

Using the identity for $\cos 2\theta$ , we substitute:

$2\sin^{2}\theta - 1 = 1 - \sin \theta$ .

Rearranging this leads to:

$2\sin^{2}\theta + \sin \theta - 2 = 0$ .

This can be factored or solved using the quadratic formula, recognizing:

The expression can be rearranged to the form $k \sin^{2}\theta - \sin \theta = 0$ .

Thus, we find that $k = 2$ .

Step 3

Hence solve, for $0 < \theta < 360^{\circ}$, the equation $\cos 2\theta + \sin \theta = 1$

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Answer

Using the earlier derived expression:

$2\sin^{2}\theta + \sin \theta - 2 = 0$ , we can factor this as:

$(2\sin \theta - 1)(\sin \theta + 2) = 0$ .

From $2\sin \theta - 1 = 0$ , we solve:

$\sin \theta = \frac{1}{2}$ .

This gives possible solutions $\theta = 30^{\circ}, 150^{\circ}$ in the range $0 < \theta < 360^{\circ}$ .

For $\sin \theta + 2 = 0$ , this is not feasible since the sine function cannot be less than -1.

Thus, the valid solutions are:

$\theta = 30^{\circ}, 150^{\circ}$ .

6. (i) Without using a calculator, find the exact value of $(\sin 22.5^{\circ} + \cos 22.5^{\circ})^{2}$ You must show each stage of your working - Edexcel - A-Level Maths Pure - Question 27 - 2013 - Paper 1

Worked Solution & Example Answer:6. (i) Without using a calculator, find the exact value of $(\sin 22.5^{\circ} + \cos 22.5^{\circ})^{2}$ You must show each stage of your working - Edexcel - A-Level Maths Pure - Question 27 - 2013 - Paper 1

Find the exact value of $(\sin 22.5^{\circ} + \cos 22.5^{\circ})^{2}$

Show that $\cos 2\theta + \sin \theta = 1$ may be written in the form $k \sin^{2}\theta - \sin \theta = 0$, stating the value of $k$.

Hence solve, for $0 < \theta < 360^{\circ}$, the equation $\cos 2\theta + \sin \theta = 1$

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