Find the 95% confidence interval for the difference between two means based on this information about two samples. Assume independent samples from normal populations. (Use conservative degrees of freedom.) (Give your answers correct to two decimal places.)
Sample - Number - Mean - Std. Dev.
1 - 25 - 36 - 20
2 - 30 - 26 - 21
Lower Limit =
Upper Limit =
Find the 95% confidence interval for the difference between two means based on this information about...
Find the 95% confidence interval for the difference between two means based on this information about two samples. Assume independent samples from normal populations. (Use conservative degrees of freedom.) (Give your answers correct to two decimal places.) Sample Number Mean Std. Dev. 1 10 34 27 2 21 22 31 Lower Limit Upper Limit
Find the 98% confidence interval for the difference between two means based on this information about two samples. Assume independent samples from normal populations. (Use conservative degrees of freedom.) (Give your answers correct to two decimal places.) Sample Number Mean Std. Dev. 1 25 31 20 2 13 26 32 Lower Limit Upper Limit
Find the 98% confidence interval for the difference between two means based on this information about two samples. Assume independent samples from normal populations. (Use conservative degrees of freedom.) (Give your answers correct to two decimal places.) Sample Number Mean Std. Dev. 1 18 40 30 2 17 28 25 Lower : ??? Upper: ???
O CONFIDENCE INTERVALS AND HYPOTHESIS TESTING Confidence interval for the difference of population means: Use ... A light bulb manufacturer wants to compare the mean lifetimes of two of its light bulbs, model A and model B. Independent random samples of the two models were taken. Analysis of 10 bulbs of model A showed a mean lifetime of 1240 hours and a standard deviation of 89 hours. Analysis of 14 bulbs of model B showed a mean lifetime of 1253...
Form a 95% confidence interval on the difference in the means. sample A B sample size 10 10 sample mean 65.5 50.5 sample std dev 9 9
Find the value of t for the difference between two means based on an assumption of normality and this information about two samples. (Use sample 1 - sample 2. Give your answer correct to two decimal places.) Sample Number Mean Std. Dev. 1 26 37.8 13.5 2 27 43.2 11.2
Find the value of t for the difference between two means based on an assumption of normality and this information about two samples. (Use sample 1 - sample 2. Give your answer correct to two decimal places.) Sample Number Mean Std. Dev. 1 19 37.5 13.8 2 26 42.2 10.6
In calculating 95% confidence interval for mu subscript 1 minus mu subscript 2; the difference between the means of two normally distributed populations, summary statistics from two independent samples are: m equals 10,x with bar on top equals 50,s squared subscript 1 equals.64, n equals 10, y with bar on top equals 40, and s squared subscript 2 equals 1.86 Then, the upper limit of the confidence interval is
Construct the indicated confidence interval for the difference between the two population means. Assume that the two samples are independent simple random samples selected from normally distributed populations. Do not assume that the population standard deviations are equal. Independent samples from two different populations yield the following data. x1 = 958, x2 = 157, s1 = 77, s2 = 88. The sample size is 478 for both samples. Find the 85% confidence interval for ?1 - ?2.
Find the value of t for the difference between two means based on an assumption of normality and this information about two samples. (Use sample 1 - sample 2. Give your answer correct to two decimal places.) Sample - Number - Mean - Std. Dev. 1 - 27 - 37 - 15 2 - 17 - 42.6 - 11.4