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Chi Square Analysis

Chi Square Analysis. The chi square analysis allows you to use statistics to determine if your data “good” or not. In our fruit fly labs we are using laws of probability to determine possible outcomes for genetic crosses. How will we know if our fruit fly data is “good”?. m & m ….

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Chi Square Analysis

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  1. Chi Square Analysis • The chi square analysis allows you to use statistics to determine if your data “good” or not. • In our fruit fly labs we are using laws of probability to determine possible outcomes for genetic crosses. • How will we know if our fruit fly data is “good”?

  2. m & m … • Peanut m&m data from Mars™ • Peanut butter m&m data from Mars™

  3. The following formula is used • If your hypothesis is supported by data • you are claiming that mating is random and so is segregation and independent assortment. • If your hypothesis is not supported by data • you are seeing that the deviation between observed and expected is very far apart…something non-random must be occurring….

  4. The test statistic is compared to a theoretical probability distribution • In order to use this distribution properly you need to determine the degrees of freedom • Degrees of freedom is the number of phenotypic possibilities in your cross minus one. • If the level of significance read from the table is greater than .05 or 5% then your hypothesis is accepted and the data is useful

  5. The hypothesis is termed the null hypothesis which states that there is no substantial statistical deviation between observed and expected data.

  6. Let’s look at a fruit fly cross x Black body, eyeless wild F1: all wild

  7. F1 x F1 5610 1881 622 1896

  8. Analysis of the results • Once the numbers are in, you have to determine the cross that you were using. • What is the expected outcome of this cross? • 9/16 wild type: 3/16 normal body eyeless: 3/16 black body wild eyes: 1/16 black body eyeless.

  9. Now Conduct the Analysis: To compute the hypothesis value take 10009/16 = 626

  10. Now Conduct the Analysis: To compute the hypothesis value take 10009/16 = 626

  11. Using the chi square formula compute the chi square total for this cross: • (5610 - 5630)2/ 5630 = .07 • (1881 - 1877)2/ 1877 = .01 • (1896 - 1877 )2/ 1877 = .20 • (622 - 626) 2/ 626 = .02 •  2= .30 • How many degrees of freedom?

  12. Using the chi square formula compute the chi square total for this cross: • (5610 - 5630)2/ 5630 = .07 • (1881 - 1877)2/ 1877 = .01 • (1896 - 1877 )2/ 1877 = .20 • (622 - 626) 2/ 626 = .02 •  2= .30 • How many degrees of freedom? 3

  13. CHI-SQUARE DISTRIBUTION TABLE

  14. When reporting chi square data use the following formula sentence…. With degrees of freedom, my chi square value is , which gives me a p value between % and %, I therefore my null hypothesis. • This sentence would go in the “reults” section of your formal lab. • Your explanation of the significance of this data would go in the “discussion” section of the formal lab.

  15. Looking this statistic up on the chi square distribution table tells us the following: • the P value read off the table places our chi square number of .30 close to .95 or 95% • This means that 95% of the time when our observed data is this close to our expected data, this deviation is due to random chance. • We therefore accept our null hypothesis.

  16. What is the critical value at which we would reject the null hypothesis? • For three degrees of freedom this value for our chi square is > 7.815 • What if our chi square value was 8.0 with 4 degrees of freedom, do we accept or reject the null hypothesis? • Accept, since the critical value is >9.48 with 4 degrees of freedom.

  17. How can we use the chi square test in a different sort of lab? • If we were testing the effect of light on plant growth, how could the chi square analysis be used? • In this case our experimental group is plants grown in the dark and the control plants are grown in the light.

  18. What would your expected data be? • Control plants grown in the light. • What would your observed group be? • Plants grown in the dark. • Do you expect to accept or reject the null hypothesis? • reject

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