In: Statistics and Probability
Astronomers have recently discovered an unknown distant galaxy and noticed something abnormal. Specifically, they suspect the percentage of stars that host planets in this galaxy is lower than is typical. (It is known that around 75% of stars throughout the universe have planets). Given the current state of technology, astronomers are not able to conduct a complete scan of all the stars in this galaxy. So instead they randomly observed 45 stars within the new galaxy, and found only 24 of them had at least one planet. They would like for you to conduct a hypothesis test to verify their suspicion.
Question 18: Which of the following is the correct null and alternative hypothesis?
Select one:
a. H0:μ=24H0:μ=24 vs. HA:μ<24HA:μ<24
b. H0:x¯=24H0:x¯=24 vs. HA:x¯<24HA:x¯<24
c. H0:p^=0.75H0:p^=0.75 vs. HA:p^<0.75HA:p^<0.75
d. H0:p^=0.75H0:p^=0.75 vs. HA:p^≠0.75HA:p^≠0.75
e. H0:p=24/45H0:p=24/45 vs. HA:p>24/45HA:p>24/45
f. H0:p=0.75H0:p=0.75 vs. HA:p<0.75HA:p<0.75
g. H0:p<0.75H0:p<0.75 vs. HA:p=0.75HA:p=0.75
Question 19 Write a sentence defining the relevant parameters from your selected pair of hypotheses
Question 20- Are the assumptions necessary for this hypothesis test satisfied? Justify your answer.
Question 21- Calculate the appropriate test statistic for your
hypothesis test, to three decimal places.
Question 22- Suppose the value of the relevant test statistic
were -4.45. (This is not the correct value of the test
statistic.)
Clearly state your conclusion to the hypothesis (reject/fail to
reject/accept H0H0/HAHA) at an α=0.01α=0.01 level, and write a
sentence interpreting your conclusion in the context of the
problem.