Date | May 2010 | Marks available | 4 | Reference code | 10M.1.sl.TZ1.7 |
Level | SL only | Paper | 1 | Time zone | TZ1 |
Command term | Find | Question number | 7 | Adapted from | N/A |
Question
Let \(f(x) = lo{g_3}\sqrt x \) , for \(x > 0\) .
Show that \({f^{ - 1}}(x) = {3^{2x}}\) .
Write down the range of \({f^{ - 1}}\) .
Let \(g(x) = {\log _3}x\) , for \(x > 0\) .
Find the value of \(({f^{ - 1}} \circ g)(2)\) , giving your answer as an integer.
Markscheme
interchanging x and y (seen anywhere) (M1)
e.g. \(x = \log \sqrt y \) (accept any base)
evidence of correct manipulation A1
e.g. \(3^x = \sqrt y \) , \({3^y} = {x^{\frac{1}{2}}}\) , \(x = \frac{1}{2}{\log _3}y\) , \(2y = {\log _3}x\)
\({f^{ - 1}}(x) = {3^{2x}}\) AG N0
[2 marks]
\(y > 0\) , \({f^{ - 1}}(x) > 0\) A1 N1
[1 mark]
METHOD 1
finding \(g(2) = lo{g_3}2\) (seen anywhere) A1
attempt to substitute (M1)
e.g. \(({f^{ - 1}} \circ g)(2) = {3^{2\log {_3}2}}\)
evidence of using log or index rule (A1)
e.g. \(({f^{ - 1}} \circ g)(2) = {3^{\log {_3}4}}\) , \({3^{{{\log }_3}2^2}}\)
\(({f^{ - 1}} \circ g)(2) = 4\) A1 N1
METHOD 2
attempt to form composite (in any order) (M1)
e.g. \(({f^{ - 1}} \circ g)(x) = {3^{2{{\log }_3}x}}\)
evidence of using log or index rule (A1)
e.g. \(({f^{ - 1}} \circ g)(x) = {3^{{{\log }_3}{x^2}}}\) , \({3^{{{\log }_3}{x^{}}}}^2\)
\(({f^{ - 1}} \circ g)(x) = {x^2}\) A1
\(({f^{ - 1}} \circ g)(2) = 4\) A1 N1
[4 marks]
Examiners report
Candidates were generally skilled at finding the inverse of a logarithmic function.
Few correctly gave the range of this function, often stating “all real numbers” or “ \(y \ge 0\) ”, missing the idea that the range of an inverse is the domain of the original function.
Some candidates answered part (c) correctly, although many did not get beyond \({3^{2{{\log }_3}2}}\) . Some attempted to form the composite in the incorrect order. Others interpreted \(({f^{ - 1}} \circ g)(2)\) as multiplication by 2.