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MAGIC criteria

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The MAGIC criteria are a set of guidelines put forth by Robert Abelson in his book Statistics as Principled Argument. In this book he posits that the goal of statistical analysis should be to make compelling claims about the world[1] and he presents the MAGIC criteria as a way to do that.

What are the MAGIC criteria?

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MAGIC is a backronym for:

  1. Magnitude – How big is the effect? Large effects are more compelling than small ones.
  2. Articulation – How specific is it?[2] Precise statements are more compelling than imprecise ones.
  3. Generality – How generally does it apply?[1] More general effects are more compelling than less general ones. Claims that would interest a more general audience are more compelling.[2]
  4. Interestingness – interesting effects are those that "have the potential, through empirical analysis, to change what people believe about an important issue".[1] More interesting effects are more compelling than less interesting ones. In addition, more surprising effects are more compelling than ones that merely confirm what is already known.[2]
  5. Credibility – Credible claims are more compelling than incredible ones. The researcher must show that the claims made are credible.[1] Results that contradict previously established ones are less credible.[2]

Reviews and applications of the MAGIC criteria

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Song Qian noted that the MAGIC criteria could be of use to ecologists.[3] Claudia Stanny discussed them in a course on psychology.[4] Anne Boomsma noted that they are useful when presenting results of complex statistical methods such as structural equation modelling.[5]

See also

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References

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  1. ^ a b c d "The MAGIC Criteria". jsvine.com. 16 February 2015. Retrieved 13 February 2020.
  2. ^ a b c d "Criteria for a persuasive statistical argument: MAGIC" (PDF). COURSE HOME PAGE INDEX AND MAILLISTS. Simon Fraser University. Retrieved 13 February 2020. Adapted from Abelson, Robert P. (1995). Statistics as principled argument. Hillsdale, NJ: Lawrence Erlbaum, pp. 12–14.
  3. ^ Qian, Song (2014). "Statistics in ecology is for making a "principled argument"". Landscape Ecology. 29 (6): 937–939. doi:10.1007/s10980-014-0042-y.
  4. ^ Caludia, Stanny. "404 – Page Not Found | University of West Florida" (PDF). uwf.edu. Archived from the original (PDF) on 2019-04-16. Retrieved 2019-12-23. {{cite web}}: Cite uses generic title (help)
  5. ^ Boomsma, Anne (2000). "Reporting Analysis of Covariance Studies". Structural Equation Modeling. 7: 461–483. doi:10.1207/S15328007SEM0703_6. S2CID 67844468.