Date | November 2014 | Marks available | 3 | Reference code | 14N.2.hl.TZ0.11 |
Level | HL only | Paper | 2 | Time zone | TZ0 |
Command term | Find | Question number | 11 | Adapted from | N/A |
Question
The number of complaints per day received by customer service at a department store follows a Poisson distribution with a mean of \(0.6\).
On a randomly chosen day, find the probability that
(i) there are no complaints;
(ii) there are at least three complaints.
In a randomly chosen five-day week, find the probability that there are no complaints.
On a randomly chosen day, find the most likely number of complaints received.
Justify your answer.
The department store introduces a new policy to improve customer service. The number of complaints received per day now follows a Poisson distribution with mean \(\lambda \).
On a randomly chosen day, the probability that there are no complaints is now \(0.8\).
Find the value of \(\lambda \).
Markscheme
(i) \(P(X = 0) = 0.549{\text{ }}( = {{\text{e}}^{ - 0.6}})\) A1
(ii) \(P(X \ge 3) = 1 - P(X \le 2)\) (M1)
\(P(X \ge 3) = 0.0231\) A1
[3 marks]
EITHER
using \(Y \sim {\text{Po(3)}}\) (M1)
OR
using \({(0.549)^5}\) (M1)
THEN
\({\text{P}}(Y = 0) = 0.0498{\text{ }}\left( { = {{\text{e}}^{ - 3}}} \right)\) A1
[2 marks]
\({\text{P}}(X = 0)\) (most likely number of complaints received is zero) A1
EITHER
calculating \({\text{P}}(X = 0) = 0.549\) and \({\text{P}}(X = 1) = 0.329\) M1A1
OR
sketching an appropriate (discrete) graph of \({\text{P}}(X = x)\) against \(x\) M1A1
OR
finding \({\text{P}}(X = 0) = {e^{ - 0.6}}\) and stating that \({\text{P}}(X = 0) > 0.5\) M1A1
OR
using \({\text{P}}(X = x) = {\text{P}}(X = x - 1) \times \frac{\mu }{x}\) where \(\mu < 1\) M1A1
[3 marks]
\({\text{P}}(X = 0) = 0.8{\text{ (}} \Rightarrow {e^{ - \lambda }} = 0.8)\) (A1)
\(\lambda = 0.223\left( { = \ln \frac{5}{4}, = - \ln \frac{4}{5}} \right)\) A1
[2 marks]
Total [10 marks]
Examiners report
Parts (a), (b) and (d) were generally well done. In (a) (ii), some candidates calculated \(1 - {\text{P}}(X \le 3)\).
Parts (a), (b) and (d) were generally well done.
A number of candidates offered clear and well-reasoned solutions to part (c). The two most common successful approaches used to justify that the most likely number of complaints received is zero were either to calculate \({\text{P}}(X = x)\) for \(x = 0,{\text{ }}1,{\text{ }} \ldots \) or find that \({\text{P}}(X = 0) = 0.549{\text{ }}( > 0.5)\). A number of candidates stated that the most number of complaints received was the mean of the distribution \((\lambda = 0.6)\).
Parts (a), (b) and (d) were generally well done.