The point isn’t understanding Bayes theorem. The point is methods that use Bayes theorem. My own statistics prof said that a lot of medical people don’t use Bayes because it usually leads to more complicated math.
To me, the biggest problem with Bayes theorem or any other fundamental statistical concept, frequentist or not, is adapting it to specific, complex, real-life problems and finding ways to test its validity under real-world constraints. This tends to require a thorough understanding of both statistics and the problem domain.
That’s not the skill that’s taught in a statistics degree.
Not explicitly, no. My only evidence is anecdotal. The statisticians and programmers I’ve talked to appear to overall be more rigorous in their thinking than biologists. Or at least better able to rigorously articulate their ideas (the Achilles heel of statisticians and programmers is that they systematically underestimate the complexity of biological systems, but that’s a different topic). I found that my own thinking became more organized and thorough over the course of my statistical training.
To me, the biggest problem with Bayes theorem or any other fundamental statistical concept, frequentist or not, is adapting it to specific, complex, real-life problems and finding ways to test its validity under real-world constraints. This tends to require a thorough understanding of both statistics and the problem domain.
Not explicitly, no. My only evidence is anecdotal. The statisticians and programmers I’ve talked to appear to overall be more rigorous in their thinking than biologists. Or at least better able to rigorously articulate their ideas (the Achilles heel of statisticians and programmers is that they systematically underestimate the complexity of biological systems, but that’s a different topic). I found that my own thinking became more organized and thorough over the course of my statistical training.