Revision as of 21:01, 26 June 2024 by Admin (Created page with "'''Solution: B''' We need to find <math>\sigma </math> small enough so that the range of values outside <math>1.000 \pm .003</math> cm has probability less than or equal to 1%. If <math>X</math> has a normal distribution with mean 1 and standard deviation <math>\sigma </math> then <math display = "block"> P(X \in 1.000 \pm .003 ) = P(Z \in \pm 0.003/\sigma ) \geq 0.99 = P(Z \in \pm 2.576) </math> where <math>Z </math> is a standard normal. Hence we need <math>\sigma...")
Exercise
ABy Admin
Jun 26'24
Answer
Solution: B
We need to find [math]\sigma [/math] small enough so that the range of values outside [math]1.000 \pm .003[/math] cm has probability less than or equal to 1%. If [math]X[/math] has a normal distribution with mean 1 and standard deviation [math]\sigma [/math] then
[[math]]
P(X \in 1.000 \pm .003 ) = P(Z \in \pm 0.003/\sigma ) \geq 0.99 = P(Z \in \pm 2.576)
[[/math]]
where [math]Z [/math] is a standard normal. Hence we need [math]\sigma = 0.001328[/math].