The desired percentage of SiO2 in a certain type of aluminous cement is 5.5. To test...

The desired percentage of SiO2 in a certain type of aluminous cement is 5.5. To test...

The desired percentage of SiO2 in a certain type of aluminous cement is 5.5. To test whether the true average percentage is 5.5 for a particular production facility, 16 independently obtained samples are analyzed. Suppose that the percentage of SiO2 in a sample is normally distributed with σ = 0.32 and that x = 5.21. (Use α = 0.05.) (a) Does this indicate conclusively that the true average percentage differs from 5.5? State the appropriate null and alternative hypotheses. H0:...

The desired percentage of SiO2 in a certain type of aluminous cement is 5.5. To test...

The desired percentage of SiO2 in a certain type of aluminous cement is 5.5. To test whether the true average percentage is 5.5 for a particular production facility, 16 independently obtained samples are analyzed. Suppose that the percentage of SiO2 in a sample is normally distributed with σ = 0.32 and that x = 5.22. (Use α = 0.05.) * Does this indicate conclusively that the true average percentage differs from 5.5? State the appropriate null and alternative hypotheses. A-)...

The desired percentage of SiO2 in a certain type of aluminous cement is 5.5. To test...

The desired percentage of SiO2 in a certain type of aluminous cement is 5.5. To test whether the true average percentage is 5.5 for a particular production facility, 16 independently obtained samples are analyzed. Suppose that the percentage of SiO2 in a sample is normally distributed with σ = 0.32 and that x = 5.21. (Use α = 0.05.) (a) Does this indicate conclusively that the true average percentage differs from 5.5? State the appropriate null and alternative hypotheses. H0:...

The desired percentage of SiO2 in a certain type of aluminous cement is 5.5. To test...

The desired percentage of SiO2 in a certain type of aluminous cement is 5.5. To test whether the true average percentage is 5.5 for a particular production facility, 16 independently obtained samples are analyzed. Suppose that the percentage of SiO2 in a sample is normally distributed with σ = 0.32 and that x = 5.23. (Use α = 0.05.) (b) If the true average percentage is μ = 5.6 and a level α = 0.01 test based on n =...

The desired percentage of SiO2 in a certain type of aluminous cement is 5.5. To test...

The desired percentage of SiO2 in a certain type of aluminous cement is 5.5. To test whether the true average percentage is 5.5 for a particular production facility, 16 independently obtained samples are analyzed. Suppose that the percentage of SiO2 in a sample is normally distributed with ? = 0.26 and that x = 5.25. (a) Find the test statistic (b) If the true average percentage is ? = 5.6 and a level ? = 0.01 test based on n...

The desired percentage of SiO2 in aluminous cement is 5.5. To test whether the true average...

The desired percentage of SiO2 in aluminous cement is 5.5. To test whether the true average percentage is 5.5 for a certain production facility, n = 16 independently obtained samples were analyzed and it was found that ¯x = 5.25. Suppose that the percentage of Si O2 found in the sample is normally distributed with σ = 0.3 and. (a) Does this indicate that the true average percentage differs from 5.5? Use significance level α = 0.01 (b) Repeat the...

Consider the following sample observations on stabilized viscosity of asphalt specimens. 2775 2900 3014 2853 2888...

Consider the following sample observations on stabilized viscosity of asphalt specimens. 2775 2900 3014 2853 2888 Suppose that for a particular application, it is required that true average viscosity be 3000. Does this requirement appear to have been satisfied? State the appropriate hypotheses. (Use α = 0.05.) H0: μ < 3000 Ha: μ = 3000 H0: μ = 3000 Ha: μ ≠ 3000 H0: μ ≠ 3000 Ha: μ = 3000 H0: μ > 3000 Ha: μ < 3000 Calculate...

Consider the following sample observations on stabilized viscosity of asphalt specimens. 2772 2890 3003 2816 2882...

Consider the following sample observations on stabilized viscosity of asphalt specimens. 2772 2890 3003 2816 2882 Suppose that for a particular application, it is required that true average viscosity be 3000. Does this requirement appear to have been satisfied? State the appropriate hypotheses. (Use α = 0.05.) a)H0: μ < 3000 Ha: μ = 3000 b)H0: μ ≠ 3000 Ha: μ = 3000 c)H0: μ = 3000 Ha: μ ≠ 3000 d)H0: μ > 3000 Ha: μ < 3000 Calculate...

To obtain information on the corrosion-resistance properties of a certain type of steel conduit, 45 specimens...

To obtain information on the corrosion-resistance properties of a certain type of steel conduit, 45 specimens are buried in soil for a 2-year period. The maximum penetration (in mils) for each specimen is then measured, yielding a sample average penetration of x = 52.3 and a sample standard deviation of s = 4.2. The conduits were manufactured with the specification that true average penetration be at most 50 mils. They will be used unless it can be demonstrated conclusively that...

To obtain information on the corrosion-resistance properties of a certain type of steel conduit, 45 specimens...

To obtain information on the corrosion-resistance properties of a certain type of steel conduit, 45 specimens are buried in soil for a 2-year period. The maximum penetration (in mils) for each specimen is then measured, yielding a sample average penetration of x = 53.2 and a sample standard deviation of s = 4.2. The conduits were manufactured with the specification that true average penetration be at most 50 mils. They will be used unless it can be demonstrated conclusively that...