Question

For each of the following situations, give the degrees of
freedom for the group (DFG), for error (DFE), and for the total
(DFT). State the null and alternative hypotheses,
*H*_{0} and *H*_{a}, and give the
numerator and denominator degrees of freedom for the
*F*statistic.

(a) A poultry farmer is interested in reducing the cholesterol level in his marketable eggs. He wants to compare two different cholesterol-lowering drugs added to the hen's standard diet as well as an all-vegetarian diet. He assigns 50 of his hens to each of the three treatments.

DFG | = | |

DFE | = | |

DFT | = |

*H*_{0}:

[ ] The all-vegetarian diet group has a lower mean cholesterol level.

[ ] The all-vegetarian diet group has a higher mean cholesterol level.

[ ] All groups have the same mean cholesterol level.

[ ] All groups have different mean cholesterol levels.

[ ] At least one group has a different mean cholesterol level.

*H*_{a}:

[ ] At least one group has a different mean cholesterol level.

[ ] All groups have different mean cholesterol levels.

[ ] The all-vegetarian diet group has a higher mean cholesterol level.

[ ] The all-vegetarian diet group has a lower mean cholesterol level.

[ ] All groups have the same mean cholesterol level.

numerator df | |

denominator df |

(b) A researcher is interested in students' opinions regarding an additional annual fee to support non-income-producing varsity sports. Students were asked to rate their acceptance of this fee on a seven-point scale. She received 99responses, of which 30 were from students who attend varsity football or basketball games only, 17 were from students who also attend other varsity competitions, and 52 who did not attend any varsity games.

DFG | = | |

DFE | = | |

DFT | = |

*H*_{0}:

[ ] All groups have different mean ratings.

[ ] All groups have the same mean rating.

[ ] At least one group has a different mean rating.

[ ] The group of students who do not attend games has a lower mean rating.

[ ] The group of students who do not attend games has a higher mean rating.

*H*_{a}:

[ ] All groups have different mean ratings.

[ ] At least one group has a different mean rating.

[ ] All groups have the same mean rating.

[ ] The group of students who do not attend games has a higher mean rating.

[ ] The group of students who do not attend games has a lower mean rating.

numerator df | |

denominator df |

(c) A professor wants to evaluate the effectiveness of his teaching assistants. In one class period, the 42 students were randomly divided into three equal-sized groups, and each group was taught power calculations from one of the assistants. At the beginning of the next class, each student took a quiz on power calculations, and these scores were compared.

DFG | = | |

DFE | = | |

DFT | = |

*H*_{0}:

[ ] The group taught by the oldest TA has a higher mean quiz score.

[ ] All groups have different mean quiz scores.

[ ] The group taught by the oldest TA has a lower mean quiz score.

[ ] All groups have the same mean quiz score.

[ ] At least one group has a different mean quiz score.

*H*_{a}:

[ ] At least one group has a different mean quiz score.

[ ] The group taught by the oldest TA has a higher mean quiz score.

[ ] All groups have the same mean quiz score.

[ ] All groups have different mean quiz scores.

[ ] The group taught by the oldest TA has a lower mean quiz score.

numerator df | |

denominator df |

Answer #1

a)

DFG | =2 | |

DFE | =147 | |

DFT | =149 |

Ho:All groups have the same mean cholesterol level.

Ha: At least one group has a different mean cholesterol level.

numerator df =2 | |

denominator df =147 |

b)

DFG | =2 | |

DFE | =96 | |

DFT | =98 |

Ho: All groups have the same mean rating.

Ha: At least one group has a different mean rating.

numerator df =2 | |

denominator df =96 |

c)

DFG | =2 | |

DFE | =39 | |

DFT | =41 |

Ho: All groups have the same mean quiz score.

Ha: At least one group has a different mean quiz score.

numerator df=2 | |

denominator df =39 |

For each of the following situations, give the degrees of
freedom for the group (DFG), for error (DFE), and for the total
(DFT). State the null and alternative hypotheses,
H0 and Ha, and give the
numerator and denominator degrees of freedom for the F
statistic.
(a) A poultry farmer is interested in reducing the cholesterol
level in his marketable eggs. He wants to compare two different
cholesterol-lowering drugs added to the hen's standard diet as well
as an all-vegetarian diet....

For each of the following situations, give the degrees of
freedom for the group (DFG), for error (DFE), and for the total
(DFT). State the null and alternative hypotheses,
H0 and Ha, and give the
numerator and denominator degrees of freedom for the F
statistic.(a) A poultry farmer is interested in reducing the
cholesterol level in his marketable eggs. He wants to compare two
different cholesterol-lowering drugs added to the hen's standard
diet as well as an all-vegetarian diet. He...

For each of the following situations, give the degrees of
freedom for the group (DFG), for error (DFE), and for the total
(DFT). State the null and alternative hypotheses,
H0 and Ha, and give the
numerator and denominator degrees of freedom for the F
statistic.
(a) A poultry farmer is interested in reducing the cholesterol
level in his marketable eggs. He wants to compare two different
cholesterol-lowering drugs added to the hen's standard diet as well
as an all-vegetarian diet....

For each of the following situations, give the degrees of
freedom for the group (DFG), for error (DFE), and for the total
(DFT). State the null and alternative hypotheses,
H0 and Ha, and give the
numerator and denominator degrees of freedom for the F
statistic.
(a) A poultry farmer is interested in reducing the cholesterol
level in his marketable eggs. He wants to compare two different
cholesterol-lowering drugs added to the hen's standard diet as well
as an all-vegetarian diet....

Q07. An ANOVA examining three different blanching
processes to determine which is best in terms of vitamin A
retention (mg/100mg) yields an F statistic with an associated
P-value of < .001. Therefore, at α = .05 we
I. fail to reject the null hypothesis.
II. reject the null hypothesis.
III. conclude that mean vitamin A retention amounts are not all
equal across the different blanching processes
a) II only
b) I only
c) both II and III
d III only...

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