<h3><u>
Answer:</u></h3>
- The chance of getting a 5 or 6 in the next turn is about 40%.
<h3><u>Step-by-step explanation:</u></h3>
- => (5 + 3) ÷ (3 + 3 + 0 + 6 + 3 + 5)
- => 8 ÷ 20
- => 8/20
- => 4/10
- => 0.40
- => 0.40 x 100
- => 40%
<h3><u>Conclusion:</u></h3>
Therefore, the chance of getting a 5 or 6 in the next turn is about 40%.
Hoped this helped
Answer:
1:1.5 or 2:3 or 4:6 or 8:12, etc. is the ratio
Step-by-step explanation:
Answer:
Divide $23.94 by 2. 23.97/2=11.97. The change would have been -$11.97 :) hope this helps
Step-by-step explanation:
Answer: About 99.74% of births would be expected to occur within 24 days of the mean pregnancy length.
Step-by-step explanation:
Complete question is attached below.
Given: The lengths of pregnancy terms for a particular species of mammal are nearly normally distributed about a mean pregnancy length with a standard deviation of 8 days.
i.e. 
let X denotes the random variable that represents the lengths of pregnancy.
The probability of births would be expected to occur within 24 days of the mean pregnancy length:
![= 2(0.9987)-1\ \ \ [\text{ By z-table}]\\\\=0.9974](https://tex.z-dn.net/?f=%3D%202%280.9987%29-1%5C%20%5C%20%5C%20%5B%5Ctext%7B%20By%20z-table%7D%5D%5C%5C%5C%5C%3D0.9974)
=99.74%
Hence, about 99.74% of births would be expected to occur within 24 days of the mean pregnancy length.
The answer is C) 2h + 1
First i factored out the negative sign, then i split the second term into two terms, then i factored out the common terms and i got -(h + 7) (2h + 1).
