Imagine that you are doing an exhaustive study on the children in all of the day
ID: 3055681 • Letter: I
Question
Imagine that you are doing an exhaustive study on the children in all of the daycares in your school district. You are particularly interested in how much time children spend with parents on weekdays You find that for this population of 2,431 children, the average number of minutes spent with parents on weekdays is = 309.21, with a standard deviation of = 156.4. You select a random sample of 25 children of daycare age in this same school district. In this sample, you find that the average number of minutes the children spend with parents on weekdays is M = 278.29, with a standard deviation of s = 172.04 The difference between M and is due to the Suppose you compile all possible samples of 25 children of daycare age in your school district. If you calculate the mean of each sample (M) and create a frequency distribution of these means, this distribution is referred to as the The mean of this distribution, that is, the mean of all the sample means (when n = 25), is the expected value of M and will be equal to called the standard error of Mand will be equal to The standard deviation of this distribution is Suppose you compile all possible samples of 100 children of daycare age in your school district; the expected value of M (when n = 100) will be daycare age in your school district. The standard error of M forthis distribution of samples when n = 100 will be equal to the expected value of M for all of the possible samples of 25 children of the standard error of M for all of the The standard error of M forall the possible samples of 100 is possible samples of 25. You can predict the size of the standard error of M for a sample size of 100 relative to a sample size of 25 because of the If you were interested in how much time children spend with parents on weekdays among this population of 2,431 children, would you actually compile all possible samples of a certain size? O No O YesExplanation / Answer
Difference M and Mu is 309.21-278.29 = 30.92
Sampling distribution
The expected value of M(n=25) and will be equal to 309.21. The SD of this distribtuio is called SE of M and will equla to population SD / sqrt(n) = 156.4 / sqrt(25) = 31.28
The expected value of M (n=100) and will be equal to 309.21. The SD of this distribtuio is called SE of M and will equla to population SD / sqrt(n) = 156.4 / sqrt(100) = 15.64
The SE of M for all possible sample of 100 is less than the SE of M for all the possible sample of 25.
because of squareroot of sample size
Correct answer: option (A) NO