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Some probability density functions (pdfs)

Some probability density functions (pdfs). Normal : outcome influenced by a very large number of very small, ‘50-50 chance’ effects (Ex: human heights). Lognormal : outcome influenced by a very large number of very small, ‘constrained’ effects (Ex: rain drops).

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Some probability density functions (pdfs)

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  1. Some probability density functions (pdfs) Normal: outcome influenced by a very large number of very small, ‘50-50 chance’ effects (Ex: human heights) Lognormal: outcome influenced by a very large number of very small, ‘constrained’ effects (Ex: rain drops) Poisson: outcome influenced by a rarely occurring events in a very large population (Ex: micrometeoroid diameters in LEO) Weibull: outcome influenced by a ‘failure’ event in a very large population (Ex: component life time) Binomial: outcome influenced by a finite number of ’50-50 chance’ effects (Ex: coin toss)

  2. Experiment with many, small, uncontrolled extraneous variables Concept of the Normal Distribution Figure 8.5 Population, with true mean and true variance x‘ and σ

  3. β = (x-x') / σ standardized normal variable z1 = (x1-x') / σ normalized z-variable (z1 is a specific value of β); subscript 1 usually dropped where p(z1) is the normal error function. Normalized Variables

  4. In-Class Problem • What is the probability that a student will score between 75 and 90 on an exam, assuming that the scores are distributed normally with a mean of 60 and a standard deviation of 15 ?

  5. 0.3413 0.9544 0.9974 Table 8.2 Normal Error Function Table Pr[0≤z≤1] = 0.6826 Pr[-1≤z≤1] = Pr[-2≤z≤2] = Pr[-3≤z≤3] = Pr[-0.44≤z≤4.06] =

  6. Statistics Using LabVIEW • Another name for the probability distribution function (PDF) is the cumulative distribution function (CDF or cdf). Why is it called cumulative? • Here is where you can find CDF functions and the inverses of these functions in LabVIEW • Let’s solve the previous problem using LabVIEW

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