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In general, radiation emitted from a radioactive substance is not itself radioactive, nor is it particularly dangerous once it stops moving. The usual radiation consists of: Alpha particles: literally just Helium minus the electrons. Only harmful because it moves fast at first. Even then, it’s only really harmful if it gets emitted inside your body. It barely penetrates skin. Beta: electrons and positron. Electrons will chemically react with something very quickly (except in a vacuum, they don’t stick around as free electrons). Positrons will find a nearby electron and be annihilated. Gamma: very high frequency light. Can be quite dangerous, but doesn’t persist. None of these transmute other things into radioactive isotopes. The kind of radiation that makes other things radioactive is neutrons, but those are very unusual outside of a nuclear reactor. Fission and some fusion reactions make neutrons, and a couple of radioactive elements make small amounts, and that’s about it. Neutrons also don’t persist in the environment (and, interestingly, they don’t persist very long in space either). So a spill of hot radioactive sodium is nasty. It’s hot, and it’s highly reactive. But it’s so reactive that it will all react! Sodium can’t meaningfully contaminate groundwater, because it will just turn into salts. It can mess up soil pH, because the reaction product is lye, but that can be remedied by an acid. (Other than its pH, lye is pretty harmless. You use flush it down your drain to clean your drain, and you can even use it to make pretzels!) The radioactive sodium-23 emits radioactive sodium, but much less than 1 trillionth will remain after a day — what’s left is non-radioactive magnesium, which is harmless. So I wouldn’t want it be around a sodium leak, but visiting it a day or two later while wearing a good pair of boots (for protection against any remaining lye) seems quite safe. |