Answer:
The correct option is (D).
Step-by-step explanation:
The data for the number of points scored by Reuben in the first five basketball games of a season are:
A = {23, 15, 28, 19, 25}
And the data for the number of points scored by Reuben in the next five games is:
B = {23, 30, 15, 22, 26}
For the first data there are only 5 observations to draw conclusions about the spread of the data and the peak of the distribution curve.
But after the next five games played by Reuben, there are 10 observations to draw conclusions.
The spread of the data is dependent upon the sample size.
Larger the sample size the smaller is the spread. And hence the distribution curve will be more peaked.
And smaller the sample size the larger is the spread. And hence the distribution curve will be less peaked.
So, after the next five games the distribution of Reuben's score would become more peaked and less widely spread.
The correct option is (D).
the answer is in photo ma homie
I'm not sure if there are supposed to be options, but the steps to figuring this problem out are fairly simple. You just divide the cost by the number of gallons. So an equation for that might look like this:
$56.70/15 = c
c= $3.78
Let X be a random variable representing the mean number of years of education completed by average American adult.
a.) P(X > 11.5) = 1 - P(X ≤ 11.5) = 1 - P(z ≤ (11.5 - 11.25)/(1.75/sqrt(75)))= 1 - P(z ≤ 1.24) = 1 - 0.89199 = 0.108
b.) P(11 < X < 12) = P(X < 12) - P(X < 11) = P(z < (12 - 11.25)/(1.75/sqrt(75))) - P(z < (11 - 11.25)/(1.75/sqrt(75))) = P(z < 3.712) - P(z < -1.237) = P(z < 3.712) - [1 - P(z < 1.237)] = P(z < 3.712) + P(z < 1.237) - 1 = 0.9999 + 0.89199 - 1 = 0.89189
385 bags/ 8 bagels per bag = 48 r 1
48 1/8 bags
She will need 49 bags to put all the bagels in.
