Right now, people are in a major panic about CoVID variants. B1.1.7 (aka UK), B1.351 (aka South Africa), CAL20C, and at least one from Brazil. By the time you read this, there will likely be others.

CoVID is a really classic example of risk because so much probability is involved. As Donn Parker has famously said, there is no risk of encountering malware because, in the current computing environment there is no probability of encountering malware: it's a certainty. Almost none of the CoVID risk is binary. If you leave your house, you don't necessarily immediately get CoVID, it just increases the probability of your risk of getting infected. If you fail to wash your hands, you don't immediately get CoVID, it just increases the probability of your risk of getting infected. If you stand less than two metres away from someone, you don't immediately get CoVID, it just increases the probability of your risk of getting infected. If you don't wear a mask when you go out, you don't immediately get CoVID, it just increases the probability of your risk of getting infected.

And, if you do get infected, there is probability involved again. You may never show any symptoms. Or you may have something like a mild case of the flu. Or you may die. Or you may just become really, really sick, and, for a month or so, wish you would die. Or you may become one of the long-haulers with some weird respiratory or neurological deficit that never goes away. It's a fairly random outcome, as far as we can tell at the moment.

But there's more probability involved, and almost nobody is talking about it. Each time the virus reproduces, there is a chance of an error. Those errors become mutations. Most of the time, the mutation simply fails. The error causes the virus to fail to reproduce, or sometimes to fall apart. (Those mutations just disappear.) Sometimes the error doesn't really change much of anything, and it just makes it possible for us humans to do full genome sequencing and figure out where this particular case of CoVID came from. But sometimes, say once in 85.4 trillion times, the error produces something that will make the virus work slightly better than it did before. It may bind more tightly to human cells, or hide a bit better from antibodies. It'll be more successful.

A more successful virus will tend to have an advantage, and will therefore sort of take over the niche that the viruses are trying to occupy, just like any other evolutionary population dynamics. If the new mutation is more successful because it infects faster or easier, then the variant will spread faster, and the new variant will be more infectious than the old variant, thus increasing the reproductive number and increasing the number of cases per day. But that's ironic, because each new case provides more opportunity for mutation. Each time the virus reproduces there is room for that error, and so each and every new case means a greater risk of more variants.

Which means that every time you go out when you don't need to, or fail to wash your hands, or fail to distance, or fail to wear a mask, you not only risk getting infected, or giving the infection to your friends and family, or increasing the spread in your neighbourhood, but you also risk making a new variant, each one closer to the ultimate aim of the viruses to become something that infects everyone it contacts immediately, spreads via tiny aerosols that go right through filters, completely spreads through the entire organism, and then sits and does nothing and produces no detectable symptoms until a month after infection when it kills everyone.

Now, lest you think that is too dark a thought in regard to virus variants, note that, right now, even with the variants that we have encountered, we do know how to deal with them. We need to do exactly what we have been told all along, only more so. Stay home if you can. Wash your hands. If you need to go out, keep your distance. If you need to go out, wear a mask. Don't go to parties. Don't hold parties. No, not even SuperBowl parties. Don't merge bubbles. This is not rocket science. And it works.

Now, go and wash your hands. A different way.