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Date May 2017 Marks available 2 Reference code 17M.2.sl.TZ2.6
Level SL only Paper 2 Time zone TZ2
Command term Write down Question number 6 Adapted from N/A

Question

Consider the function \(f(x) =  - {x^4} + a{x^2} + 5\), where \(a\) is a constant. Part of the graph of \(y = f(x)\) is shown below.

M17/5/MATSD/SP2/ENG/TZ2/06

It is known that at the point where \(x = 2\) the tangent to the graph of \(y = f(x)\) is horizontal.

There are two other points on the graph of \(y = f(x)\) at which the tangent is horizontal.

Write down the \(y\)-intercept of the graph.

[1]
a.

Find \(f'(x)\).

[2]
b.

Show that \(a = 8\).

[2]
c.i.

Find \(f(2)\).

[2]
c.ii.

Write down the \(x\)-coordinates of these two points;

[2]
d.i.

Write down the intervals where the gradient of the graph of \(y = f(x)\) is positive.

[2]
d.ii.

Write down the range of \(f(x)\).

[2]
e.

Write down the number of possible solutions to the equation \(f(x) = 5\).

[1]
f.

The equation \(f(x) = m\), where \(m \in \mathbb{R}\), has four solutions. Find the possible values of \(m\).

[2]
g.

Markscheme

5     (A1)

 

Note:     Accept an answer of \((0,{\text{ }}5)\).

 

[1 mark]

a.

\(\left( {f'(x) = } \right) - 4{x^3} + 2ax\)     (A1)(A1)

 

Note:     Award (A1) for \( - 4{x^3}\) and (A1) for \( + 2ax\). Award at most (A1)(A0) if extra terms are seen.

 

[2 marks]

b.

\( - 4 \times {2^3} + 2a \times 2 = 0\)     (M1)(M1)

 

Note:     Award (M1) for substitution of \(x = 2\) into their derivative, (M1) for equating their derivative, written in terms of \(a\), to 0 leading to a correct answer (note, the 8 does not need to be seen).

 

\(a = 8\)     (AG)

[2 marks]

c.i.

\(\left( {f(2) = } \right) - {2^4} + 8 \times {2^2} + 5\)     (M1)

 

Note:     Award (M1) for correct substitution of \(x = 2\) and  \(a = 8\) into the formula of the function.

 

21     (A1)(G2)

[2 marks]

c.ii.

\((x = ){\text{ }} - 2,{\text{ }}(x = ){\text{ 0}}\)     (A1)(A1)

 

Note:     Award (A1) for each correct solution. Award at most (A0)(A1)(ft) if answers are given as \(( - 2{\text{ }},21)\) and \((0,{\text{ }}5)\) or \(( - 2,{\text{ }}0)\) and \((0,{\text{ }}0)\).

 

[2 marks]

d.i.

\(x <  - 2,{\text{ }}0 < x < 2\)     (A1)(ft)(A1)(ft)

 

Note:     Award (A1)(ft) for \(x <  - 2\), follow through from part (d)(i) provided their value is negative.

Award (A1)(ft) for \(0 < x < 2\), follow through only from their 0 from part (d)(i); 2 must be the upper limit.

Accept interval notation.

 

[2 marks]

d.ii.

\(y \leqslant 21\)     (A1)(ft)(A1)

 

Notes:     Award (A1)(ft) for 21 seen in an interval or an inequality, (A1) for “\(y \leqslant \)”.

Accept interval notation.

Accept \( - \infty  < y \leqslant 21\) or \(f(x) \leqslant 21\).

Follow through from their answer to part (c)(ii). Award at most (A1)(ft)(A0) if \(x\) is seen instead of \(y\). Do not award the second (A1) if a (finite) lower limit is seen.

 

[2 marks]

e.

3 (solutions)     (A1)

[1 mark]

f.

\(5 < m < 21\) or equivalent     (A1)(ft)(A1)

 

Note:     Award (A1)(ft) for 5 and 21 seen in an interval or an inequality, (A1) for correct strict inequalities. Follow through from their answers to parts (a) and (c)(ii).

Accept interval notation.

 

[2 marks]

g.

Examiners report

[N/A]
a.
[N/A]
b.
[N/A]
c.i.
[N/A]
c.ii.
[N/A]
d.i.
[N/A]
d.ii.
[N/A]
e.
[N/A]
f.
[N/A]
g.

Syllabus sections

Topic 7 - Introduction to differential calculus » 7.2 » The principle that \(f\left( x \right) = a{x^n} \Rightarrow f'\left( x \right) = an{x^{n - 1}}\) .
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