The result from the hypotheis test below shows that there is no significant evidence existing to show difference in the mutation.
<h3>How to solve for the z statistics</h3>
The hypothesis for this test has been stated below:
H0: pI - pII = 0
Ha: pI - pII ≠ 0
n1 = 9
p1 = 0.6%
n2 = 12
p2 = 1%
Using the z statistics formula
z = -0.103
p value = z(-0.103) = 0.4589
The pvalue is greater that 0.01
The decision is to fail to reject the null hypothesis.
There is no significant evidence to show that there is a difference in the prevalence of mutation.
Read more on hypothesis testing here: brainly.com/question/15980493
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Answer:
This time I saw the tupelo, cypress, and yaupon trees through the eyes of a man who has lived his entire life along the river.
Explanation:
Answer: the company has to increase its revenue in 33.33%
Explanation:
Let's see the companie's goal is to reach 64 million which is the double of 32 million.
the company increases its revenue by 50% which means that the company has increased it revenue in 16 millions.
32 million * 50/100 = 16 million
Now the the first year revenue is 32 million plus 16 million = 48 million
64 million - 48 million = 16 million (amount in which the company has to increase its revenue to reach 64 million)
with a simple three rule
48 million ----- 100%
16 million -------X
X= 1600/48 X= 33.33%
Answer:
54 dollars
Explanation:
Because this problem involves simple interest, and the money is only deposited for one year, you can calculate the amount of money in the bank after one year by thinking about a percent increase. Johnny starts with 50 dollars in his bank account, and we are given that he will experience an 8% increase over the year. This means that the amount of money in his bank account after one year is just 50 + 0.08*50 (the principal amount plus the simple interest, or amount of money that increases during the year). This is equal to 50 + 4, or 54 dollars.
Note that, whenever we are dealing with simple interest, the amount of money in the bank after a certain number of years is just P(1 + PRT), where P is the principal amount, R is the interest rate, and T is the number of years the money is in the bank.
