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Number of public school students in 2nd grade correlates with...
Variable | Correlation | Years | Has img? |
The number of first-line retail sales supervisors in North Dakota | r=0.97 | 13yrs | No |
The number of CEOs in Hawaii | r=0.96 | 20yrs | No |
The number of special education teachers in North Carolina | r=0.95 | 11yrs | No |
Bachelor's degrees awarded in Theology and religious vocations | r=0.95 | 10yrs | No |
Hydopower energy generated in Paraguay | r=0.89 | 32yrs | No |
Jet fuel used in Brazil | r=0.86 | 32yrs | No |
SLB's stock price (SLB) | r=0.83 | 21yrs | Yes! |
Jet fuel used in Norway | r=0.82 | 33yrs | No |
PG&E's stock price (PCG) | r=0.81 | 21yrs | No |
Popularity of the first name Annabel | r=0.81 | 33yrs | No |
Popularity of the first name Logan | r=0.76 | 33yrs | No |
Number of public school students in 2nd grade also correlates with...
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You caught me! While it would be intuitive to sort only by "correlation," I have a big, weird database. If I sort only by correlation, often all the top results are from some one or two very large datasets (like the weather or labor statistics), and it overwhelms the page.
I can't show you *all* the correlations, because my database would get too large and this page would take a very long time to load. Instead I opt to show you a subset, and I sort them by a magic system score. It starts with the correlation, but penalizes variables that repeat from the same dataset. (It also gives a bonus to variables I happen to find interesting.)