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SOCS留学生作业代做、代写java编程设计作业、java课程设

SOCS留学生作业代做、代写java编程设计作业、java课程设

作者: duanzoutu | 来源:发表于2019-03-03 18:48 被阅读0次

    Exploring the Sampling Distribution of the Sample MeanObjective: To discover the properties of the sampling distribution of the sample mean and apply the Central Limit Theorem in problem-solving situations.1.Go to www.rossmanchance.com/applets2.Open the Sampling Pennies applet located under Classics3.If the page appears blank, you may need to click the link to open the javascript versionPart 1: Sampling Pennies1.Under population data select Pennies which gives the age, and year minted of a random sample of 1000 pennies. Consider the 1000 pennies the population.2.Select the variable “Year.” Describe the population distribution using SOCS (shape, outliers, center, spread)3.Click on the “Show Sampling Options” box in the upper right hand corner.4.Set the number of samples to 1 and the sample size to 10. Click on Draw Samples. You will see the sample data and the most recent sample in the graph below the sample data. The sample mean of that sample will be computed and you will see it plotted on the graph on the right. 5.Click Draw Samples a few more times. For each new sample another sample mean is computed and plotted in the graph on the right. 6.Make a prediction: What do you think the shape of the sampling distribution will be?7.Now, change the number of samples to 1000 and click on Draw Samples. Describe the distribution of the sample means using SOCS. Insert a screenshot of the sampling distribution below.8.Click on the Reset button. Change the sample size to 30 and the number of samples to 1000. Click on Draw Samples. Describe the distribution of the sample means using SOCS. Insert a screenshot of the sampling distribution below.9.Click on the Reset button. Change the sample size to 50 and the number of samples to 1000. Click on Draw Samples. Describe the distribution of the sample means using SOCS. Insert a screenshot of the sampling distribution below.10.Click on the Reset button. Change the sample size to 100 and the number of samples to 1000. Click on Draw Samples. Describe the distribution of the sample means using SOCS. Insert a screenshot of the sampling distribution below.11.How did the sampling distribution of the sample means change as the sample size increased?Part 2: Sampling Change1.Under the population data select Change which gives the amount of change in the pockets of a random sample of 1000 college students. Consider the 1000 observations the population.2.Describe the population distribution using SOCS (shape, outliers, center, spread).3.Make a prediction: What do you think the shape of the sampling distribution will be? 4.Click on the “Show Sampling Options” box in the upper right hand corner. Set the number of samples to 1000 and the sample size to 10. Click on Draw Samples. Describe the distribution of the sample means using SOCS. Insert a screenshot of the sampling distribution below.5.Click on the Reset button. Change the sample size to 30 and the number of samples to 1000. Click on Draw Samples. Describe the distribution of the sample means using SOCS. Insert a screenshot of the sampling distribution below.6.Click on the Reset button. Change the sample size to 50 and the number of samples to 1000. Click on Draw Samples. Describe the distribution of the sample means using SOCS. Insert a screenshot of the sampling distribution below.7.Click on the Reset button. Change the sample size to 100 and the number of samples to 1000. Click on Draw Samples. Describe the distribution of the sample means using SOCS. Insert a screenshot of the sampling distribution below.8.How did the sampling distribution of the sample means change as the sample size increased?Part 3: Sampling Stars1.Under the population data select Stars which gives the number of stars visible on 100 randomly selected nights. Consider the 100 observations the population.2.Select the variable “stars.” Describe the population distribution using SOCS (shape, outliers, center, spread)3.Make a prediction: What do you think the shape of the sampling distribution will be?4.Click on the “Show Sampling Options” box in the upper right hand corner. Set the number of samples to 1000 and the sample size to 10. Click on Draw Samples. Describe the distribution of the sample means using SOCS. Insert a screenshot of the sampling distribution below.5.Click on the Reset button. Change the sample size to 30 and the number of samples to 1000. Click on Draw Samples. Describe the distribution of the sample means using SOCS. Insert a screenshot of the sampling distribution below.6.Click on the Reset button. Change the sample size to 50 and the number of samples to 1000. Click on Draw Samples. Describe the distribution of the sample means using SOCS. Insert a screenshot of the sampling distribution below.7.Click on the Reset button. Change the sample size to 100 and the number of samples to 1000. Click on Draw Samples. Describe the distribution of the sample means using SOCS. Insert a screenshot of the sampling distribution below.8.How did the sampling distribution of the sample means change as the sample size increased?Part 4: Putting it all togetherThe Central Limit Theorem tells us that no matter the shape of the population distribution the sampling distribution will be approximately normal as long as the 4 conditions below have been met.1.The samples have been obtained randomly2.The samples are independent3.The sample size is less than 10% of the population4.The sample size is large enoughPlease note: for the sampling distribution of the sample mean ‘large enough’ depends upon the shape of the population distribution. For population distributions that are approximately normal, very small sample sizes are ‘large enough.’ However, for very skewed distributions the sample size must be much larger than the size of 30 that your text recommends.Formulas for the mean and standard deviation of the sampling distribution of the sample meanMean: Standard Deviation: 1.Complete the table below that summarizes the result of each of your investigations and compute the mean and standard deviation for the sampling distributions for samples of size 100. Pennies Change StarsShape of Population Distribution Population Mean Population SD Shape n = 10 Shape n = 30 Shape n = 50 Shape n = 100 Mean n = 100 SD n = 100 n = 100, n = 100, Part 5: Applying what you’ve learned1.For a sample size of 100, find the probability of obtaining a sample mean amount of change less than 0.45.2.For a sample size of 100, find the probability of obtaining a sample mean amount of change greater than 0.53.3.For a sample size of 100, find the probability of obtaining a sample mean amount of change between 0.51 and 0.57.4.For a sample size of 100, find the 80th percentile of the sample mean amount of change.For a sample size of 100, what would be unusual sample mean amounts of change? Explain your answer.本团队核心人员组成主要包括硅谷工程师、BAT一线工程师,精通德英语!我们主要业务范围是代做编程大作业、课程设计等等。我们的方向领域:window编程 数值算法 AI人工智能 金融统计 计量分析 大数据 网络编程 WEB编程 通讯编程 游戏编程多媒体linux 外挂编程 程序API图像处理 嵌入式/单片机 数据库编程 控制台 进程与线程 网络安全 汇编语言 硬件编程 软件设计 工程标准规等。其中代写编程、代写程序、代写留学生程序作业语言或工具包括但不限于以下范围:C/C++/C#代写Java代写IT代写Python代写辅导编程作业Matlab代写Haskell代写Processing代写Linux环境搭建Rust代写Data Structure Assginment 数据结构代写MIPS代写Machine Learning 作业 代写Oracle/SQL/PostgreSQL/Pig 数据库代写/代做/辅导Web开发、网站开发、网站作业ASP.NET网站开发Finance Insurace Statistics统计、回归、迭代Prolog代写Computer Computational method代做因为专业,所以值得信赖。如有需要,请加QQ:99515681 或邮箱:99515681@qq.com 微信:codehelp

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