1. Helen believes that the random variable $C$, representing cloud cover from the large data set, can be modelled by a discrete uniform distribution. (a) Write down the probability distribution for $C$: (b) Using this model, find the probability that cloud cover is less than 50%. Helen used all the data from the large data set for Hurn in 2015 and found that the proportion of days with cloud cover of less than 50% was 0.315. (c) Comment on the suitability of Helen's model in the light of this information. (d) Suggest an appropriate refinement to Helen’s model.

A-Level Edexcel Maths Mechanics Binomial Distribution: 1. Helen believes that the rando

1. Helen believes that the random variable $C$, representing cloud cover from the large data set, can be modelled by a discrete uniform distribution - Edexcel - A-Level Maths Mechanics - Question 1 - 2018 - Paper 1

Question 1

1. Helen believes that the random variable $C$, representing cloud cover from the large data set, can be modelled by a discrete uniform distribution. (a) Write down... show full transcript

Worked Solution & Example Answer:1. Helen believes that the random variable $C$, representing cloud cover from the large data set, can be modelled by a discrete uniform distribution - Edexcel - A-Level Maths Mechanics - Question 1 - 2018 - Paper 1

Step 1

Write down the probability distribution for C:

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Answer

The random variable $C$ can take on the values from the set {0, 1, 2, 3, 4, 5, 6, 7, 8}. Since it follows a discrete uniform distribution, the probability of each value is equal:

$P(C = c) = rac{1}{9} \quad \text{for } c \in \, \{0, 1, 2, 3, 4, 5, 6, 7, 8\}$

Step 2

Using this model, find the probability that cloud cover is less than 50%.

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Answer

To find the probability that cloud cover is less than 50%, we need to identify the values of $C$ that correspond to less than 50%. Assuming that values 0 through 4 represent cloud cover percentages less than 50%, we can count these values. Thus, we have:

Values less than 4: 0, 1, 2, 3
This gives us 4 favorable outcomes.

The probability is then calculated as follows:

$P(C < 4) = \frac{4}{9}$

Step 3

Comment on the suitability of Helen's model in the light of this information.

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Answer

Helen's model predicted that the probability of cloud cover being less than 50% was $\frac{4}{9} \approx 0.444$ . However, the actual proportion from the data set is 0.315. This indicates that the model overestimates the probability of low cloud cover days. Since the calculated probability is higher than the observed proportion, we infer that a uniform distribution may not be suitable. The underlying conditions affecting cloud cover may vary significantly, thus suggesting the need for a more tailored model.

Step 4

Suggest an appropriate refinement to Helen’s model.

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Answer

A suitable refinement to Helen's model could involve using a non-uniform distribution. Factors such as geographical location and seasonal changes often influence cloud cover. A model that allocates different probabilities to the days based on these factors would likely provide a more accurate representation of actual cloud cover data.

1. Helen believes that the random variable $C$, representing cloud cover from the large data set, can be modelled by a discrete uniform distribution - Edexcel - A-Level Maths Mechanics - Question 1 - 2018 - Paper 1

Worked Solution & Example Answer:1. Helen believes that the random variable $C$, representing cloud cover from the large data set, can be modelled by a discrete uniform distribution - Edexcel - A-Level Maths Mechanics - Question 1 - 2018 - Paper 1

Write down the probability distribution for C:

Using this model, find the probability that cloud cover is less than 50%.

Comment on the suitability of Helen's model in the light of this information.

Suggest an appropriate refinement to Helen’s model.

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