The body weight of a healthy 3 month-old colt should be about μ = 60 kg. (Source: The Merck Veterinary Manual, a standard reference manual used in most veterinary colleges.)
(a) If you want to set up a statistical test to challenge the claim that μ = 60 kg, what would you use for the null hypothesis H0?
μ ≠ 60
μ > 60
μ = 60
μ < 60
(b) In Nevada, there are many herds of wild horses. Suppose you want to test the claim that the average weight of a wild Nevada colt (3 months old) is less than 60 kg. What would you use for the alternate hypothesis H1?
μ > 60
μ < 60
μ ≠ 60
μ = 60
(c) Suppose you want to test the claim that the average weight of such a wild colt is greater than 60 kg. What would you use for the alternate hypothesis?
μ = 60
μ < 60
μ ≠ 60
μ > 60
(d) Suppose you want to test the claim that the average weight of such a wild colt is different from 60 kg. What would you use for the alternate hypothesis?
μ = 60
μ ≠ 60
μ > 60
μ < 60
(e) For each of the tests in parts (b), (c), and (d), would the area corresponding to the P-value be on the left, on the right, or on both sides of the mean?
both; left; right
right; left; both
left; right; both
left; both; right

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okpalawalter8 okpalawalter8 · Answer 1 · 2020-11-22T02:59:08+01:00

Answer:

a

The null hypothesis will be [tex]H_o : \mu = 60 \ kg[/tex]

b

The alternative hypothesis will be [tex]H_a : \mu < 60[/tex]

c

The alternative hypothesis will be [tex]H_a : \mu > 60[/tex]

d

The alternative hypothesis will be [tex]H_a : \mu \ne 60[/tex]

e

left; right; both

Step-by-step explanation:

Considering question a

The body weight of the colt is [tex]\mu = 60 \ kg[/tex]

The null hypothesis will be [tex]H_o : \mu = 60 \ kg[/tex]

Considering question b

Given that we want to test the claim that the average weight of a wild Nevada colt is less than 60 kg , then

The alternative hypothesis will be [tex]H_a : \mu < 60[/tex]

Considering question c

Given that we want to test the claim that the average weight of such a wild colt is greater than 60 kg , then

The alternative hypothesis will be [tex]H_a : \mu > 60[/tex]

Considering question d

Given that we want to test the claim that the average weight of such a wild colt is different from 60 kg , then

The alternative hypothesis will be [tex]H_a : \mu \ne 60[/tex]

Considering question e

For question b , the corresponding p-value will be on the left because the average weight is less than 60 kg

For question c , the corresponding p-value will be on the right because the average weight is more than 60 kg

For question d , the corresponding p-value will be on both because the average weight is different from 60 kg