A common characterization of obese individuals is that their body mass index is at least 30 [BM]=weight/(height), where height is in meters and weight is in kilograms]. An article reported that in a sample of female workers. 266 had BMIs of less than 25. 156 had BMIs that were at least 25 but less than 30, and 123 had BMIs exceeding 30. Is there compelling evidence for concluding that more than 20% of the individuals in the sampled population are obese? LUSE SALT (a) State the appropriate hypotheses with a significance level of 0.05. H₂p=0.20 HP>0.20 (b) ⒸH₂ P=0.20 Hip<0.20 ⒸH₁: p=0.20 HIP* 0.20 ⒸH₂:p>0.20 H: P = 0.20 Calculate the best statistic and determine the P-value. (Round your best statistic to two decimal places and your P-value to four decimal places.) z 1.50 P-value = 0668 What can you conclude? O Reject the null hypothesis. There is sufficient evidence that more than 20% of the population of female workers is obese. O Do not reject the null hypothesis. There is sufficient evidence that more than 20% of the population of female workers is obese. O Reject the null hypothesis. There is not sufficient evidence that more than 20% of the population of female workers is obese. Do not reject the null hypothesis. There is not sufficient evidence that more than 20% of the population of female workers is obese. Explain in the context of this scenario what constitutes type I erros A type I error would be declaring that 20% or less of the population of female workers is obese, when in fact more than 20% are actually obese. A type I error would be declaring that 20% or more of the population of female workers is obese, when in fact less than 20% are actually obese. A type 1 error would be declaring that less than 20% of the population of female workers is obese, when in fact 20% or more are actually obese. A type I error would be declaring that more than 20% of the population of female workers is obese, when in fact 20% or less are actually obese. Explain in the context of this scenario what constitutes type 11 error .. A type II error would be declaring that 20% or less of the population of female workers is obese, when in fact more than 20% are actually obese. A type II error would be declaring that 20% or more of the population of female workers is obese, when in fact less than 20% are actually obese. A type II error would be declaring that less than 20% of the population of female workers is obese, when in fact 20% or more are actually obese. A type II error would be declaring that more than 20% of the population of female workers is obese, when in fact 20% or less are actually obese. (c) What is the probability of not concluding that more than 20% of the population is obese when the actual percentage of obese individuals is 24%? (Round your answer to four decimal places.)

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A common characterization of obese individuals is that their body mass index is at least 30 (BMI = weight/(height)^2), where height is in meters and weight is in kilograms. An article reported that in a sample of female workers, 266 had BMIs of less than 25, 156 had BMIs that were at least 25 but less than 30, and 123 had BMIs exceeding 30. Is there compelling evidence for concluding that more than 20% of the individuals in the sampled population are obese?

**(a)** State the appropriate hypotheses with a significance level of 0.05.

- \(H_0: p = 0.20\)
- \(H_1: p > 0.20\) ✔

Calculate the test statistic and determine the P-value. (Round your test statistic to two decimal places and your P-value to four decimal places.)

- \( z = 1.56 \)
- P-value = 0.0594

What can you conclude?

- Do not reject the null hypothesis. There is not sufficient evidence that more than 20% of the population of female workers is obese. ✔

**(b)** Explain in the context of this scenario what constitutes type I error.

- A type I error would be declaring that more than 20% of the population of female workers is obese, when in fact 20% or less are actually obese. ✔

**Explain in the context of this scenario what constitutes type II error.**

- A type II error would be not rejecting the null hypothesis, when in fact more than 20% of the population of female workers is obese. ✔

**(c)** What is the probability of not concluding that more than 20% of the population is obese when the actual percentage of obese individuals is 24%? (Round your answer to four decimal places.)
Transcribed Image Text:A common characterization of obese individuals is that their body mass index is at least 30 (BMI = weight/(height)^2), where height is in meters and weight is in kilograms. An article reported that in a sample of female workers, 266 had BMIs of less than 25, 156 had BMIs that were at least 25 but less than 30, and 123 had BMIs exceeding 30. Is there compelling evidence for concluding that more than 20% of the individuals in the sampled population are obese? **(a)** State the appropriate hypotheses with a significance level of 0.05. - \(H_0: p = 0.20\) - \(H_1: p > 0.20\) ✔ Calculate the test statistic and determine the P-value. (Round your test statistic to two decimal places and your P-value to four decimal places.) - \( z = 1.56 \) - P-value = 0.0594 What can you conclude? - Do not reject the null hypothesis. There is not sufficient evidence that more than 20% of the population of female workers is obese. ✔ **(b)** Explain in the context of this scenario what constitutes type I error. - A type I error would be declaring that more than 20% of the population of female workers is obese, when in fact 20% or less are actually obese. ✔ **Explain in the context of this scenario what constitutes type II error.** - A type II error would be not rejecting the null hypothesis, when in fact more than 20% of the population of female workers is obese. ✔ **(c)** What is the probability of not concluding that more than 20% of the population is obese when the actual percentage of obese individuals is 24%? (Round your answer to four decimal places.)
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