Data is Beautiful
Be respectful
Nice. Though a bit of context would be helpful. What is a z-score? Where is this from, and where can I read more?
A z score is a statistical concept that measures the rate above or below the mean something is
In many cases, a z-score between -2 and +2 is common. Anything outside that range is rare. Further away from zero you go, the rarer it gets.
In real life though, not all things follow the normal distribution, so z-scores aren’t always so easy to interpret. If the distribution is far from normal, z-scores are only marginally useful.
To add, about 2.5% of cases are below -2 and another 2.5% above +2 (specifically 1.96), so long as the original metric is normally distributed (bell shaped). About 68% of cases actually fall between -1 and 1, as most things tend to be close to average. That's true of pretty much any true normal distribution, btw.
It's a neat way to basically say, this isn't a normal amount of phrase usage. It's not a statistical test, though those concepts use a similar approach to probabilities.
When dealing with real world data, it’s always a good idea to check how normal it is. If that assumption is grossly violated, you have to work a bit harder and use more robust methods.
When it’s reasonably close to normal, you can take all sorts of nice shortcuts like z-scores and t-tests. I haven’t looked into this case yet, but I assume they knew what they were doing.
Yup, although technically you can still run z-tests and t-tests for statistical validity because samples are always normally distributed around a population mean (as long as it's a large enough sample), even for skewed or uniform distributions. Some tests work better than others, though. The graphs z might be a sample, which might make sense is population data is available for these phrases, but otherwise I'm a little confused why that'd use it, lol.
To clarify for the commenter, though, Z-scores themselves can be applied to individuals; it's just a simple conversation setting mean to 0 and standard deviation to 1. In that case, it's strictly a relative case, that 2.5% isn't a probability so much as the percentile -- % cases that fall below that score. It's a nifty metric to compare things that aren't on the same scale, for instance.
A totalitarian regime using Ai to push their agenda. Big surprise. How about y’all get out and vote better before you can’t even access websites anymore. Oh wait…
Someone needs a dictionary