I can Google the answer, but I don’t think I’m the only person who doesn’t know what the average happens to be. I think it’s worthwhile that an article like this provides a reference for such a score.
“Our tests are really badly calibrated – we haven’t been able to get them to the point where somebody with 99.9 percentile level subject matter knowledge reliably scores at the 97th percentile or higher.”
more interesting. There no good reason not to provide that information in the article.
The fact that any dimension reduction strategy from [super large and complicated space that is your brain] to [positive integer within a range] is badly calibrated should be news to precisely no one.
The fact that any dimension reduction strategy from [super large and complicated space that is your brain] to [positive integer within a range] is badly calibrated should be news to precisely no one.
I don’t think I agree with “badly calibrated,” there. It’s not like everyone saw g coming, or it doesn’t see any opposition; it’s surprising and interesting how much of the variance in human intelligence can be captured by a single dimension. Is it 100%? Of course not, and I say that because we calculate g loadings and correlations and have a good idea of just how much information g does or does not give us.
I can Google the answer, but I don’t think I’m the only person who doesn’t know what the average happens to be. I think it’s worthwhile that an article like this provides a reference for such a score.
Reading on (http://www.collegeboard.com/prod_downloads/highered/ra/sat/SATPercentileRanks.pdf) that Jonah’s score of 720 puts him into the 96 percentile of the overall population makes a sentence like
more interesting. There no good reason not to provide that information in the article.
I agree with your larger point.
The fact that any dimension reduction strategy from [super large and complicated space that is your brain] to [positive integer within a range] is badly calibrated should be news to precisely no one.
I don’t think I agree with “badly calibrated,” there. It’s not like everyone saw g coming, or it doesn’t see any opposition; it’s surprising and interesting how much of the variance in human intelligence can be captured by a single dimension. Is it 100%? Of course not, and I say that because we calculate g loadings and correlations and have a good idea of just how much information g does or does not give us.