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Learn about critical features of experimental design, research hypotheses, factors, variables, bias handling, and more based on D. Heath's work. Explore probability calculations, null hypothesis testing, analysis methods, and the binomial distribution in detail.
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Experimental design Based on Chapter 2 of D. Heath (1995). An Introduction to Experimental Design and Statistics for Biology. CRC Press.
Four critical features of experimental designHurlbert 1984 • Controls • Randomization • Replication • Interspersion
The design of a experiment • Factor: humidity • Variable: direction
Removing other possible effects • Dealing with bias
Other design issues • Number of woodlice • Which woodlice • They must be representative of the population of reference
Probability of damp turn = 0.5 Analysis • Null hypothesis: • Alternative hypothesis: Probability of damp turn = 0.5
damp dry dry damp dry damp dry dry dry dry damp damp damp damp dry dry dry dry damp damp damp damp dry dry dry dry damp damp damp damp Expected frequencies for four trails
Example • Damp*Damp*Damp*Damp • If order does not matter there is only one way to obtain four damp turns and the combined probability (under the assumption of independence) is 0.5*0.5*0.5*0.5= 0.0625 • Calculate the probability of the other possible outcomes under the null hypothesis
Exercise • There are four ways to obtain three damp turns: Damp*Damp*Damp*Dry Damp*Damp*Dry*Damp Damp*Dry*Damp*Damp Dry*Damp*Damp*Damp • and the combined probability (under the assumption of independence) is 0.5*0.5*0.5*0.5= 0.0625 four times = 0.25 • Calculate the probability of the other possible outcomes under the null hypothesis
What do you conclude if we observed 14 damp turns out of 17 ?
Binomial distribution Rejection region Rejection region unlikely likely unlikely 0.0000+0.0001+0.0010+0.0052+0.0182= 2.45% 0.0182+0.0052+0.0010+0.0001+0.0000= 2.45%
The main points • Use a mathematical model to produce a sampling distribution of all possible values of the test statistic assuming that the null hypothesis is true • Find the probability associated with a a particular value occurring in a particular experiment • Use the probability to make a decision about whether a particular result is likely or unlikely
n! n! X!(n – X)! X!(n – X)! The Binomial DistributionOverview • However, if order is not important, then where is the number of ways to obtain X successes in n trials, and n! = n (n – 1) (n – 2) … 2 1 P(X) = pX qn – X