Assume that the probability of a being born with Genetic Condition B is p = 29/30. A study looks at a random sample of 174 volunteers. Find the most likely number of the 174 volunteers to have Genetic Condition B. (Round answer to one decimal place.) = d Let X represent the number of volunteers (out of 174) who have Genetic Condition B. Find the standard deviation for the probability distribution of X. (Round answer to two decimal places.) 0 = Use the range rule of thumb to find the minimum usual value µ-20 and the maximum usual value μ+2o. Enter answer as an interval using square-brackets only with whole numbers.

MATLAB: An Introduction with Applications
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Assume that the probability of a being born with Genetic Condition B is \( p = \frac{29}{30} \). A study looks at a random sample of 174 volunteers. 

Find the most likely number of the 174 volunteers to have Genetic Condition B. (Round answer to one decimal place.)
\[ \mu = \]

Let \( X \) represent the number of volunteers (out of 174) who have Genetic Condition B. Find the standard deviation for the probability distribution of \( X \). (Round answer to two decimal places.)
\[ \sigma = \]

Use the range rule of thumb to find the minimum usual value \( \mu - 2\sigma \) and the maximum usual value \( \mu + 2\sigma \). Enter the answer as an interval using square-brackets only with whole numbers.
\[ \text{usual values} = \]
Transcribed Image Text:Assume that the probability of a being born with Genetic Condition B is \( p = \frac{29}{30} \). A study looks at a random sample of 174 volunteers. Find the most likely number of the 174 volunteers to have Genetic Condition B. (Round answer to one decimal place.) \[ \mu = \] Let \( X \) represent the number of volunteers (out of 174) who have Genetic Condition B. Find the standard deviation for the probability distribution of \( X \). (Round answer to two decimal places.) \[ \sigma = \] Use the range rule of thumb to find the minimum usual value \( \mu - 2\sigma \) and the maximum usual value \( \mu + 2\sigma \). Enter the answer as an interval using square-brackets only with whole numbers. \[ \text{usual values} = \]
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