Young's modulus is a quantitative measure of stiffness of an elastic material. Suppose that for aluminum alloy sheets of aparticular type, its mean value and standard deviation are 70 GPa and 1.6 GPa, respectively (values given in the article "Influenceof Material Properties Variability on Springback and Thinning in Sheet Stamping Processes: A Stochastic Analysis" (Intl. J. ofAdvanced Manuf. Tech., 2010: 117-134)).(a) If X is the sample mean Young's modulus for a random sample of n = 16 sheets, where is the sampling distribution ofX centered, and what is the standard deviation of the X distribution?E(X) =GPaGPax =(b) Answer the questions posed in part (a) for a sample size of n = 64 sheets.E(X)GPaGPaox =(c) For which of the two random samples, the one of part (a) or the one of part (b), is X more likely to be within 1 GPa of70 GPa? Explain your reasoning.O X is more likely to be within 1 GPa of the mean in part (b). This is due to the decreased variability of X that comeswith a larger sample size.O X is more likely to be within 1 GPa of the mean in part (a). This is due to the decreased variability of X that comeswith a smaller sample size.X is more likely to be within 1 GPa of the mean in part (a). This is due to the increased variability of X that comeswith a smaller sample size.O X is more likely to be within 1 GPa of the mean in part (b). This is due to the increased variability of X that comeswith a larger sample size.

Given Data Population Mean,μ = 70.0 Population Standard Deviation,σ = 1.6

Answered: X centered, and what is the standard…

MATLAB: An Introduction with Applications

6th Edition

ISBN:9781119256830

Author:Amos Gilat

Publisher:Amos Gilat

Chapter1: Starting With Matlab

Section: Chapter Questions

Problem 1P

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J 1 explain Diagnostic Test On Normality, Heteroscedasticity And Multicollinearity
This question assumes that you have access to a statistical package that computes standard errors robust to arbitrary serial correlation and heteroskedasticity for panel data methods.(i) For the pooled OLS estimates in Table 14.1, obtain the standard errors that allow for arbitrary serial correlation (in the composite errors, vit = ai + uit) and heteroskedasticity. How do the robust standard errors for educ, married, and union compare with the nonrobust ones?(ii) Now obtain the robust standard errors for the fixed effects estimates that allow arbitrary serial correlation and heteroskedasticity in the idiosyncratic errors, uit. How do these compare with the nonrobust FE standard errors?(iii) For which method, pooled OLS or FE, is adjusting the standard errors for serial correlation more important? Why?
Water availability is of prime importance in the life cycle of most reptiles. To determine the rate of evaporative water loss of a certain species of lizard at a particular desert site, 34 such lizards were randomly collected, weighed and placed under the appropriate experimental conditions. After 24 hours, each lizard was removed, weighed, and its total water loss was calculated by subtracting its body weight after treatment from its initial body weight. Previous studies have shown that the relative frequency distribution of water loss for this species of lizard has a mean of 3.1 grams and a s.d. of 0.8 gram b) What is the probability that x is less than 2.7 grams?
Water availability is of prime importance in the life cycle of most reptiles. To determine the rate of evaporative water loss of a certain species of lizard at a particular desert site, 34 such lizards were randomly collected, weighed and placed under the appropriate experimental conditions. After 24 hours, each lizard was removed, weighed, and its total water loss was calculated by subtracting its body weight after treatment from its initial body weight. Previous studies have shown that the relative frequency distribution of water loss for this species of lizard has a mean of 3.1 grams and a s.d. of 0.8 gram. a) What is the approximate sampling distribution of x , the mean water loss of the 34 lizards
Seedlings of understory trees in mature tropical rainforests must survive and grow using inter- mittent flecks of sunlight. How does the length of exposure to these flecks of sunlight (fleck duration) affect growth? Leakey et al. (2005) experimentally irradiated seedlings of the Southeast Asian rainforest tree Shorea leprosula with flecks of light of varying duration while maintaining the same total irradiance to all the seedlings. Their data for 21 seedlings are listed in the following table. i. What is the rate of change in relative growth rate per minute of fleck duration? provide a standard error for your estimate. ii. using these data, test the hypothesis that fleck duration affects seedling growth rate. iii. Calculate a 99% confidence interval for the slope of the population regression.
19. An article in International Journal of Electrical Power & Energy Systems "Stochastic Optimal Load Flow Using a Combined Quasi-Newton and Conjugate Gradient Technique" (1989, Vol. 11(2), pp. 85-93) considered the problem of optimal power flow in electric power systems and included the effects of uncertain variables in the problem formulation. The method treats the system power demand as a normal random variable with 0 mean and unit variance. What is the probability that the power demand is greater than -2 and less than 2? Round your answer to three decimal places (e.g. 98.765).
Statistically significant findings in ANOVA are found when the observed D-ratio does not exceed the expected F-value (Fcrit) under the null hypothesis.
Show that the mean of a random sample of size n from an exponential population is a minimum variance unbi-ased estimator of the parameter θ.
Twenty-two young asthmatic volunteers were studied toassess the short-term effects of sulfur dioxide (SO2) exposure under various conditions [12]. The baseline data inTable 12.30 were presented regarding bronchial reactivity to SO2 stratified by lung function (as defined by forcedexpiratory volume / forced vital capacity [FEV1/FVC]) atscreening.*12.6 Test the hypothesis that there is an overall mean difference in bronchial reactivity among the three lung-functiongroups.
If the alpha level is changed from a = .OS to a = .01 What happens to the boundaries for the critical region? What happens to the probability of a Type I error?
Two catalyst may be used in a batch chemiocal process. Twelve batches were preapred using catalyst 1, resulting in an average yield of 86 and a sample standard deviation of 3. Fifteen batches were prepared using catalyst 2, and they resulted in an average yield of 89 with standard deviation of 2. Assume that yield measurements are approximately normally distributed with the same standard deviation. Is there evidence to support a claim that catalyst 2 produces a higher mean yiedl that catalyst 1? Use alpha= 0.01. What is the test statistic?
Make a normal probability plot of the residuals and discuss its appearance. Inspect the residual plots to check for heteroscedasticity and report your conclusion.

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