A certain paper suggested that a normal distribution with mean 3,500 grams and a standard deviation of 560 grams is a reasonable model for birth weights of babies born in Canada.

One common medical definition of a large baby is any baby that weighs more than 4,000 grams at birth.

What is the probability that a randomly selected Canadian baby is a large baby?

Question

Mathematics

Alexis Guzman

14 April, 07:20

A certain paper suggested that a normal distribution with mean 3,500 grams and a standard deviation of 560 grams is a reasonable model for birth weights of babies born in Canada.

One common medical definition of a large baby is any baby that weighs more than 4,000 grams at birth.

What is the probability that a randomly selected Canadian baby is a large baby?

+5

Answers (1)

Know the Answer?

Patricia Mayo · Answer 1

Answer: the probability that a randomly selected Canadian baby is a large baby is 0.19

Step-by-step explanation:

Since the birth weights of babies born in Canada is assumed to be normally distributed, we would apply the formula for normal distribution which is expressed as

z = (x - µ) / σ

Where

x = birth weights of babies

µ = mean weight

σ = standard deviation

From the information given,

µ = 3500 grams

σ = 560 grams

We want to find the probability or that a randomly selected Canadian baby is a large baby (weighs more than 4000 grams). It is expressed as

P (x > 4000) = 1 - P (x ≤ 4000)

For x = 4000,

z = (4000 - 3500) / 560 = 0.89

Looking at the normal distribution table, the probability corresponding to the z score is 0.81

P (x > 4000) = 1 - 0.81 = 0.19