5. When we did hypothesis testing for proportions in class, we were able to use a...

When we did hypothesis testing for proportions in class, we were able to use a normal...

When we did hypothesis testing for proportions in class, we were able to use a normal distribution in all cases, provided the sample size was large enough. Explain why we can always apply the Central Limit Theorem to a random variable X, if X ∼ Bern(p) and the sample size is sufficiently large.

conception: for the null hypothesis test problem why we can use standard normal distribution table? by...

conception: for the null hypothesis test problem why we can use standard normal distribution table? by the central limited theorem and law of large number we have that when n is getting large, then the sample distribution will be normal distribution but it doesn't mean it is standard normal distribution. But why we can still use the table to find the value

The one-sample z-test for proportions determines the p-value using the “normal approximationmethod”. (Note that in class...

The one-sample z-test for proportions determines the p-value using the “normal approximationmethod”. (Note that in class we talked about the two-sample z-test for proportions, but the ideas are similar for the one sample case). This method approximates the exact p-value that would have been found if the binomial formula were used. But, the “normal approximation method” only works well when the sample size is “large enough”. Write a paragraph that discusses the following: Why is the one-sample z-test for proportions...

5.26  What is wrong? Explain what is wrong in each of the following statements. (a) The...

5.26  What is wrong? Explain what is wrong in each of the following statements. (a) The central limit theorem states that for large n, the population mean μ is approximately Normal. (b) For large n, the distribution of observed values will be approximately Normal. (c) For sufficiently large n, the 68–95–99.7 rule says that x¯x¯ should be within μ ± 2σ about 95% of the time. (d) As long as the sample size n is less than half the population...

When performing inference on population means we require that the data are normal and/or that the...

When performing inference on population means we require that the data are normal and/or that the sample size is large (to use the Central Limit Theorem) so that the sample means have a sampling distribution that is at least approximately normal. The exact same statement (in bold) holds for performing inference on population variance(s) using the χ 2 or F-test. (a) True (b) False

The central limit theorem states that: Populations with more than 30 observations are approximately normally distributed....

The central limit theorem states that: Populations with more than 30 observations are approximately normally distributed. As the sample size increase, a sampling distribution will look more and more like the population. As long as the sample size collected is at least 30, the variable of interest will always be approximately normally distributed. A skewed-left population can never be a sampling distribution that is approximately normally distributed. For sufficiently large random samples, the sampling distribution of the sample mean is...

In cases where we do not know the sample distribution and we have sufficiently large n,...

In cases where we do not know the sample distribution and we have sufficiently large n, then we can apply the Central Limit Theorem. That is to say, according to the CLT, x can have any distribution whatsoever, but as the sample size increases, the distribution of   will approach a normal distribution. The CLT formula is Where n is the sample size (n ≥ 30), μ is the mean of the x distribution, and σ is the standard deviation of...

Consider random samples of size 82 drawn from population A with proportion 0.45 and random samples...

Consider random samples of size 82 drawn from population A with proportion 0.45 and random samples of size 64 drawn from population B with proportion 0.11 . (a) Find the standard error of the distribution of differences in sample proportions, p^A-p^B. Round your answer for the standard error to three decimal places. standard error = Enter your answer in accordance to the question statement       (b) Are the sample sizes large enough for the Central Limit Theorem to apply?...

Consider random samples of size 58 drawn from population A with proportion 0.78 and random samples...

Consider random samples of size 58 drawn from population A with proportion 0.78 and random samples of size 76 drawn from population B with proportion 0.68 . (a) Find the standard error of the distribution of differences in sample proportions, p^A-p^B. Round your answer for the standard error to three decimal places. standard error = Enter your answer in accordance to the question statement (b) Are the sample sizes large enough for the Central Limit Theorem to apply? Yes No

Question 14 For all tests of hypothesis, the probability of rejecting the null hypothesis is a...

Question 14 For all tests of hypothesis, the probability of rejecting the null hypothesis is a function of A. the size of the observed differences B. the alpha level and the use of one- or two-tailed tests C. sample size D. all of the above Question 15 The Central Limit Theorem states that as sample size becomes large the population distribution becomes normal. True False Question 16 The area between the mean and a Z score of + 1.50 is...