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I mean ($\ce{H2O}$) is non-toxic and is needed everyday but all of the other group 16 hydrides (hydrogen sulfide ($\ce{H2S}$), hydrogen selenide ($\ce{H2Se}$), hydrogen telluride ($\ce{H2Te}$) and hydrogen polonide or polonium hydride ($\ce{H2Po}$) are toxic and flammable. We observe that water is an outlier. Why is this the case?

Bruh Moments
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    Because life was born in an ocean of water. – Ivan Neretin Apr 29 '21 at 00:25
  • It is just confusing because you would think since a chemical is related to one of the other you would think that it is similar,but chemistry is obviously more complicated then that – Bruh Moments Apr 29 '21 at 02:14
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    https://chemistry.stackexchange.com/questions/86540/why-h2o-is-a-liquid-water-and-h2s-is-a-gas – Mithoron Apr 29 '21 at 14:18
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    Chemistry within a group is not as similar as the Periodic Table might lead one to believe (except, perhaps, in groups 1 and 2). You should already know that first-row elements (B, C, N, O, F) stand out in terms of e.g. hydrogen bonding. I'm not trying to say that toxicity is caused by the lack of hydrogen bonding, I'm just trying to point out that there are substantial differences between O and S (and beyond), and perhaps it's not all that surprising after all. – orthocresol Apr 29 '21 at 23:33
  • Evolution means that we are resistant to all of the substances that are abundant on Earth. For example, nitrogen, orygen, water, salt etc. If those compounds were toxic then we wouldn't survive would we? – S R Maiti May 03 '21 at 08:58
  • Tangentially related question: https://chemistry.stackexchange.com/questions/4636/why-do-chalcogens-group-vi-stink-so-badly/ One of the answer says: "The bio-degradation of sulfur compounds mostly leads to some sulfides which very strongly bind transition metals, i.e. they can destroy/block Metalloenzymes". The same might occur with selenide and telluride. – Nilay Ghosh May 21 '21 at 07:28
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    Continuing Mithoron's comment: H2O is liquid others are gas. So, how do they contribute to toxicity? Because of its volatility and smell. Due to them being gas, they have the tendency to have higher exposure to human body than water, so they are more prone to be to smelly and toxic. See: https://chemistry.stackexchange.com/questions/81935/how-does-the-smell-of-a-compound-come-about-and-is-it-possible-to-define-a-smel/81937 – Nilay Ghosh Jun 24 '21 at 08:04

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