A manufacturer of nickel-hydrogen batteries randomly selects 100 nickel plates for test cells, cycles them a...

A manufacturer of nickel-hydrogen batteries randomly selects 100 nickel plates for test cells, cycles them a...

A manufacturer of nickel-hydrogen batteries randomly selects 100 nickel plates for test cells, cycles them a specified number of times, and determines that 13 of the plates have blistered. Does this provide compelling evidence for concluding that more than 10% of all plates blister under such circumstances? Use alpha = 0.05. 1.) Calculate the test statistic (z) and determine the P-value. (Round your test statistic to two decimal places and your P-value to four decimal places.) z=______ p-value=_____ 2.)  If it...

A manufacturer of nickel-hydrogen batteries randomly selects 100 nickel plates for test cells, cycles them a...

A manufacturer of nickel-hydrogen batteries randomly selects 100 nickel plates for test cells, cycles them a specified number of times, and determines that 13 of the plates have blistered. (a) Does this provide compelling evidence for concluding that more than 10% of all plates blister under such circumstances? State and test the appropriate hypotheses using a significance level of 0.05. Calculate the test statistic and determine the P-value. (Round your test statistic to two decimal places and your P-value to...

A manufacturer of nickel-hydrogen batteries randomly selects 100 nickel plates for test cells, cycles them a...

A manufacturer of nickel-hydrogen batteries randomly selects 100 nickel plates for test cells, cycles them a specified number of times, and determines that 14 of the plates have blistered. If it is really the case that 15% of all plates blister under these circumstances and a sample size of 100 is used, how likely is it that the null hypothesis of part (a) will not be rejected (to 4 decimal places). (The probability of making a type 2 error when...

A manufacturer of nickel-hydrogen batteries randomly selected 100 nickel plates for test cells, cycled them a...

A manufacturer of nickel-hydrogen batteries randomly selected 100 nickel plates for test cells, cycled them a specified number of times, and determined that 14 of the plates have blistered. Does this provide compelling evidence for concluding that more than 10% of all plates blister under such circumstances? State and test the appropriate hypotheses using a significance level of .05. Please use a full 4-part hypothesis test: Hypotheses, check assumptions, calculations and conclusion. Please show your R code that gives you...

A manufacturer of nickel-hydrogen batteries randomly selects 100 nickel plates for test cells, cycles them a...

A manufacturer of nickel-hydrogen batteries randomly selects 100 nickel plates for test cells, cycles them a specified number of times, and determines that 14 of the plates have blistered. (a) Do the sample results provide enough evidence to conclude that the % of plates that blister is different from 10%? Use α = 0.05. (b) Carry out the test in (a) using the P-value Method. It`s not necessary to repeat Steps 1), 2), 3)

A random sample of 100 observations from a quantitative population produced a sample mean of 21.5...

A random sample of 100 observations from a quantitative population produced a sample mean of 21.5 and a sample standard deviation of 8.2. Use the p-value approach to determine whether the population mean is different from 23. Explain your conclusions. (Use α = 0.05.) State the null and alternative hypotheses. H0: μ = 23 versus Ha: μ < 23 H0: μ = 23 versus Ha: μ > 23 H0: μ = 23 versus Ha: μ ≠ 23 H0: μ <...

A test of the null hypothesis H0: μ = μ0 gives test statistic z = −1.24....

A test of the null hypothesis H0: μ = μ0 gives test statistic z = −1.24. (Round your answers to four decimal places.) (a) What is the P-value if the alternative is Ha: μ > μ0? (b) What is the P-value if the alternative is Ha: μ < μ0? (c) What is the P-value if the alternative is Ha: μ ≠ μ0?

A test of the null hypothesis H0: μ = μ0 gives test statistic z = −1.46....

A test of the null hypothesis H0: μ = μ0 gives test statistic z = −1.46. (Round your answers to four decimal places.) (a) What is the P-value if the alternative is Ha: μ > μ0? (b) What is the P-value if the alternative is Ha: μ < μ0? (c) What is the P-value if the alternative is Ha: μ ≠ μ0?

A test of the null hypothesis H0: μ = μ0  gives test statistic z = −0.13. (Round...

A test of the null hypothesis H0: μ = μ0  gives test statistic z = −0.13. (Round your answers to four decimal places.) (a) What is the P-value if the alternative is Ha: μ > μ0? (b) What is the P-value if the alternative is Ha: μ < μ0? (c) What is the P-value if the alternative is Ha: μ ≠ μ0?

1. A test of the null hypothesis H0: μ = μ0 gives test statistic z =...

1. A test of the null hypothesis H0: μ = μ0 gives test statistic z = 0.26. (Round your answers to four decimal places. (a) What is the P-value if the alternative is Ha: μ > μ0? (b)What is the P-value if the alternative is Ha: μ < μ0? (c)What is the P-value if the alternative is Ha: μ ≠ μ0? 2. A test of the null hypothesis H0: μ = μ0 gives test statistic z = −1.65. (a) What...