2.13.1 Quadratic Functions, SPM Practice (Paper 2)

Question 1:

(a) Find the values of k if the equation (1 – k) x²– 2(k + 5)x + k + 4 = 0 has real and equal roots.

Hence, find the roots of the equation based on the values of k obtained.

(b) Given the curve y = 5 + 4x – x²has tangen equation in the form y = px + 9. Calculate the possible values of p.

Solutions:

(a)

For equal roots,

b²– 4ac = 0

[–2(k + 5)]² – 4(1 – k)( k + 4) = 0

4(k + 5)²– 4(1 – k)( k + 4) = 0

4(k² + 10k + 25) – 4(4 – 3k – k²) = 0

4k² + 40k + 100 – 16 + 12k + 4k² = 0

8k² + 52k + 84 = 0

2k² + 13k + 21 = 0

(2k + 7) (k + 3) = 0

k = - \frac{7}{2}, - 3

k = - \frac{7}{2}

, the equation is

\begin{array}{l} (1 + \frac{7}{2}) x^{2} - 2 (- \frac{7}{2} + 5) x - \frac{7}{2} + 4 = 0 \\ \frac{9}{2} x^{2} - 3 x + \frac{1}{2} = 0 \end{array}

9x² – 6x + 1 = 0

(3x – 1) (3x – 1) = 0

x = ⅓

If k = –3, the equation is

(1 + 3)x²– 2(–3 + 5)x – 3 + 4 = 0

4x² – 4x + 1 = 0

(2x – 1) (2x – 1) = 0

x = ½

(b)

y = 5 + 4x – x²----- (1)

y = px + 9 ---------- (2)

(1) = (2), 5 + 4x – x²= px + 9

x² + px – 4x + 9 – 5 = 0

x² + (p – 4)x + 4 = 0

Tangen equation only has one intersection point with equal roots.

b²– 4ac = 0

(p – 4)² – 4(1)(4) = 0

p² – 8p + 16 – 16 = 0

p² – 8p = 0

p (p – 8) = 0

Therefore, p = 0 and p = 8.

Question 2:

Given α and β are two roots of the quadratic equation (2x + 5)(x + 1) + p = 0 where αβ = 3 and p is a constant.

Find the value p, α and of β.

Solutions:

(2x + 5)(x + 1) + p = 0

2x² + 2x + 5x + 5 + p = 0

2x² + 7x + 5 + p = 0

*Compare with, x²– (sum of roots)x + product of roots = 0

x^{2} + \frac{7}{2} x + \frac{5 + p}{2} = 0 \leftarrow \begin{array}{l} divide both \\ sides with 2 \end{array}

Product of roots, αβ = 3

\frac{5 + p}{2} = 3

5 + p = 6

p = 1

Sum of roots =

- \frac{7}{2}

\begin{array}{l} α + β = - \frac{7}{2} \to (1) \\ and α β = 3 \to (2) \\ from (2), β = \frac{3}{α} \to (3) \\ Substitute (3) into (1), \\ α + \frac{3}{α} = - \frac{7}{2} \end{array}

2α²+ 6 = –7α ← (multiply both sides with 2α)

2α²+ 7α + 6 = 0

(2α + 3)(α + 2) = 0

2α + 3 = 0 or α + 2 = 0

α=− 3 2 α = –2

\begin{array}{l} Substitute α = - \frac{3}{2} into (3), \\ β = \frac{3}{- \frac{3}{2}} = 3 (- \frac{2}{3}) = - 2 \end{array}

Substitute α = –2 into (3),

\begin{array}{l} β = - \frac{3}{2} \\ ∴ p = 1, and \\ when α = - \frac{3}{2}, β = - 2 and α = - 2, β = - \frac{3}{2} . \end{array}

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