Date | May 2014 | Marks available | 5 | Reference code | 14M.2.hl.TZ1.10 |
Level | HL only | Paper | 2 | Time zone | TZ1 |
Command term | Find | Question number | 10 | Adapted from | N/A |
Question
Let \(f(x) = \frac{{{{\text{e}}^{2x}} + 1}}{{{{\text{e}}^x} - 2}}\).
The line \({L_2}\) is parallel to \({L_1}\) and tangent to the curve \(y = f(x)\).
Find the equations of the horizontal and vertical asymptotes of the curve \(y = f(x)\).
(i) Find \(f'(x)\).
(ii) Show that the curve has exactly one point where its tangent is horizontal.
(iii) Find the coordinates of this point.
Find the equation of \({L_1}\), the normal to the curve at the point where it crosses the y-axis.
Find the equation of the line \({L_2}\).
Markscheme
\(x \to - \infty \Rightarrow y \to - \frac{1}{2}\) so \(y = - \frac{1}{2}\) is an asymptote (M1)A1
\({{\text{e}}^x} - 2 = 0 \Rightarrow x = \ln 2\) so \(x = \ln 2{\text{ }}( = 0.693)\) is an asymptote (M1)A1
[4 marks]
(i) \(f'(x) = \frac{{2\left( {{{\text{e}}^x} - 2} \right){{\text{e}}^{2x}} - \left( {{{\text{e}}^{2x}} + 1} \right){{\text{e}}^x}}}{{{{\left( {{{\text{e}}^x} - 2} \right)}^2}}}\) M1A1
\( = \frac{{{{\text{e}}^{3x}} - 4{{\text{e}}^{2x}} - {{\text{e}}^x}}}{{{{\left( {{{\text{e}}^x} - 2} \right)}^2}}}\)
(ii) \(f'(x) = 0\) when \({{\text{e}}^{3x}} - 4{{\text{e}}^{2x}} - {{\text{e}}^x} = 0\) M1
\({{\text{e}}^x}\left( {{{\text{e}}^{2x}} - 4{{\text{e}}^x} - 1} \right) = 0\)
\({{\text{e}}^x} = 0,{\text{ }}{{\text{e}}^x} = - 0.236,{\text{ }}{{\text{e}}^x} = 4.24{\text{ }}({\text{or }}{{\text{e}}^x} = 2 \pm \sqrt 5 )\) A1A1
Note: Award A1 for zero, A1 for other two solutions.
Accept any answers which show a zero, a negative and a positive.
as \({{\text{e}}^x} > 0\) exactly one solution R1
Note: Do not award marks for purely graphical solution.
(iii) (1.44, 8.47) A1A1
[8 marks]
\(f'(0) = - 4\) (A1)
so gradient of normal is \(\frac{1}{4}\) (M1)
\(f(0) = - 2\) (A1)
so equation of \({L_1}\) is \(y = \frac{1}{4}x - 2\) A1
[4 marks]
\(f'(x) = \frac{1}{4}\) M1
so \(x = 1.46\) (M1)A1
\(f(1.46) = 8.47\) (A1)
equation of \({L_2}\) is \(y - 8.47 = \frac{1}{4}(x - 1.46)\) A1
(or \(y = \frac{1}{4}x + 8.11\))
[5 marks]