The question above which involves the order of the enlistment of the basketball players can be answered by calculating for the factorial (!) of the number of players. That is,
different orders of enlistment = 12! = 479,001,600
Thus, the answer is the second choice.
Answer:
Step-by-step explanation:
Hello!
The objective of this experiment is to test if the presence of toxaphene in the diet reduces the gain of weight. For these two random samples of female rats were made, one was fed with a diet that contained a low dose of toxaphene and the other, called the control group, was fed with the same type of food but without toxaphene. The weight of the rats was registered in both groups obtaining:
Sample 1 (with toxaphene)
n₁= 19 female rats
S₁= 58g
Sample 2 (control group)
n₂= 21
S₂= 30g
The hypothesis is that the presence of low-dose insecticide in the diet increases the variability in weight gain. Symbolically: σ₁² > σ₂²
The hypothesis is:
H₀: σ₁² ≤ σ₂²
H₁: σ₁² > σ₂²
α: 0.05
This hypothesis test is for the variance ratio, the statistic to use is:
F= (S₁²/S₂²)*( σ₁²/σ₂²)~F
This test is one-tailed (right) and the critical value is:
If F ≥ 2.19, you reject the null hypothesis.
If F < 2.19, you support the null hypothesis.
F= (S₁²/S₂²)*( σ₁²/σ₂²) = (3364/900)*1 = 3.737
Since the calculated value is greater than the critical value, the decision is to reject the null hypothesis. The variability of the weight gain of rats fed with a low dose of insecticide is greater than the variability of the control group.
I hope it helps!
Answer:
First possible answer is correct
Step-by-step explanation:
The first possible answer is the correct one. It shows that Ellen is approaching Mark's house (the distance is decreasing). The level part of the graph indicates her having to stop and wait in traffic. Then she takes off again at a greater speed towards Mark's house.
Answer:
28.27
Step-by-step explanation: