The solution is detailed and well presented. Infinite Sequence : Convergence, Divergence and Sums (4 Problems)Ĭonvergence, Divergence and sums of Infinite Sequences are investigated. This solution provides a brief, but concise discussion regarding the concepts of convergence and divergence of complex sequences. This provides examples of determining convergence or divergence and finding limits.Ĥ0 Problems : Sequences, Series, Convergence, Divergence and Limitsģ8397 40 Problems : Sequences, Series, Convergence, Divergence and Limits 1.Ĭomplex Sequences and Series: Convergence or Divergence? "Thank you very much for your valuable time and assistance!".Please let me know (once posted), if the credits I'm offering is enough or you ! Thanks again!" "Thank you so much for all of your help!!! I will be posting another assignment.But somehow, why not use 100, why use standard deviation of sample mean? Please help explain." I do understand that the variance is the square of the differences of each sample data value minus the mean. I don't understand, why don't we simply use the "100" I understand that standard deviation is the square root of variance. ![]() WHEN & Why use standard deviation of the sample mean. But when and WHY do we use the standard deviation formula where you got 5.154. I do understand the sample mean(s) of the population will follow a normal distribution, and that CLT states the sample mean of population is the population (mean), we have 143.74. I do understand the Central Limit Theorem needs the sample size (n) to be greater than 30, we have 100. I have seen the standard deviation formula you used to get 5.154. ![]() I recognize things from previous chapters.
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