Answer:
The middle 60% of the customers have to wait 18 to 26 minutes until their food is served.
Explanation:
Solution:-
- Define a random variable X: The waiting time for any customer at a particular restaurant to be normally distributed with the following analytical parameters.
X ~ Norm ( u , s^2 )
Where,
u: The mean waiting time
s: The standard deviation for the waiting time about mean time.
- The parameters for the random variable are given as such:
X ~ Norm ( 22 , 4^2 ) mins
- The general empirical rule of statistics gives us the probability for normally distributed random variable within one, two and three standard deviations about the mean ( u ):
- The empirical rule says:
P ( u - s < X < u + s ) = 0.68
P ( u - 2*s < X < u + 2*s ) = 0.95
P ( u - 3*s < X < u + 3*s ) = 0.997
- The interval for the middle 60% of the customer are to wait for their order is given by the following range:
P ( u - s < X < u + s ) = 0.68 ( 68% )
Where,
Range for 68% : u - s < X < u + s
Range for 68% : 22 - 4 < X < 22 + 4
Answer:
Range for 68% : (18 < X < 26) mins