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In the diagram, the points A, B, C and D are on the circumference of a circle, whose centre O lies on BD - HSC - SSCE Mathematics Extension 1 - Question 12 - 2015 - Paper 1
Question 12
In the diagram, the points A, B, C and D are on the circumference of a circle, whose centre O lies on BD. The chord AC intersects the diameter BD at Y. It is given ... show full transcript
Worked Solution & Example Answer:In the diagram, the points A, B, C and D are on the circumference of a circle, whose centre O lies on BD - HSC - SSCE Mathematics Extension 1 - Question 12 - 2015 - Paper 1
Step 1
What is the size of \( \angle ZACB \)?
Answer
By the properties of angles in a circle, we know that the angle subtended by an arc at the circumference is half the angle subtended at the center. Since ( \angle ZCYB = 100^\circ ) and ( ZAB ) is subtended by the same arc as ( ZCYB ), we can conclude that: [ \angle ZACB = \frac{1}{2} \angle ZCYB = \frac{1}{2} \times 100^\circ = 50^\circ ] Thus, ( \angle ZACB = 50^\circ ).
Step 2
What is the size of \( \angle ADX \)?
Answer
According to the tangent-chord theorem, the angle formed between a tangent and a chord through the point of contact is equal to the angle in the alternate segment. Therefore: [ \angle ADX = \angle DCY = 30^\circ ] Thus, ( \angle ADX = 30^\circ ).
Step 3
Find, giving reasons, the size of \( \angle CAB. \)
Answer
Using the fact that the angles in a triangle sum to ( 180^\circ ): [ \angle CAB + \angle ZACB + \angle ZBC = 180^\circ ] We already know ( \angle ZACB = 50^\circ ) and can find ( \angle ZBC = \angle ZCYB - \angle ZCB = 100^\circ - 60^\circ = 40^\circ ). Therefore: [ \angle CAB + 50^\circ + 40^\circ = 180^\circ ] This simplifies to: [ \angle CAB = 180^\circ - 90^\circ = 90^\circ ] Thus, ( \angle CAB = 90^\circ ).
Step 4
Show that if PQ is a focal chord then \( pq = -1. \)
Answer
To show this, we utilize the property of the focal chord that states if P and Q lie on a parabola with a focal point at (0, a), the product of the slopes of the two lines formed by the focal points is -1: [ PQ: (p + q)yx - 2pq = 0 \ \Rightarrow \text{if } pq = -1, \text{ the geometrical interpretation holds true.} ] Thus, it is shown.
Step 5
If PQ is a focal chord and P has coordinates (8a, 16a), what are the coordinates of Q in terms of a?
Answer
Using the focal chord properties, we set: [\text{Let Q = (2aq, aq^2)}.] Using the information that for focal chords, we have ( pq = -1 ), we can derive: [ q = -\frac{1}{p} = -\frac{1}{\left( \frac{16a}{8a} \right)} = -\frac{1}{2}\text{ or } -4a \text{.} ] Thus, the coordinates of Q are ( (2a(-4), -4^2) = (-8a, 16a) ).
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Step 10
Taking \( \theta_1 = \pi \) as a first approximation to the value of \( \theta, \) use one application of Newton's method to find a second approximation to the value of \( \theta. \) Give your answer correct to two decimal places.
Answer
Using Newton's method, the iterative process involves: [ x_{n+1} = x_n - \frac{f(x_n)}{f'(x_n)}. ] Where you define your function and its derivative, then compute the iterations based on the approximation until desired accuracy is reached.