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Why Schr枚dinger's 1944 classic What Is Life? still feels prescient

Pioneer of quantum mechanics Erwin Schr枚dinger's look at living organisms is one of the most influential popular-science books of the 20th century. So how does it hold up today, asks Karmela Padavic-Callaghan

By Karmela Padavic-Callaghan

8 July 2026

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Is What Is Life? still as impactful today?

A scientist is supposed to write within his field of expertise as a matter of noblesse oblige, writes Erwin Schr枚dinger, one of the architects of modern quantum science, in his 1944 book What Is Life?. 鈥淚 beg to renounce the noblesse,鈥 he writes next, inviting the reader into the realm of living organisms instead of the inanimate atoms that he had made a name for himself studying. For 90 or so pages, he is ready to give up his position among the greats of one science and join the rest of us strivers and dabblers in developing new, and somewhat na茂ve, ideas about another. In doing this, he produced one of the most influential popular-science books of the 20th century.

Based on a series of lectures that Schr枚dinger gave in Dublin in 1943, What is Life? is both short and conversational, not shying away from the occasional self-effacing remark or a poetic turn of phrase. Yet Schr枚dinger鈥檚 framing of the book鈥檚 central problem is stated firmly in the language of physics: 鈥淗ow can the events in space and time which take place within the spatial boundary of a living organism be accounted for by physics and chemistry?鈥

To arrive at an answer, he is also thinking like a physicist. Accordingly, What is Life? 鈥 subtitled The physical aspect of the living cell 鈥 starts with the discussion of how small and numerous the building blocks (such as atoms) of any living organism are, and how they should consequently obey the laws of statistical physics. Schr枚dinger is on solid ground here and can clearly articulate how, when a physicist considers a large collection of tiny things, they can say something about them on average, but not about any single one of them exactly.

The laws of physics also dictate that such systems constantly evolve towards increasing disorder, and that they are filled with fluctuations. But living organisms are neatly ordered, prompting the very intrigued Schr枚dinger to compare them to the intricate inner mechanisms of clocks. They can also reliably reproduce and pass on their traits thanks to a very small amount of 鈥渉ereditary substance鈥 鈥 a point that baffles him.

What Is Life? was written before the structure of DNA was fully understood, so Schr枚dinger is unsure what this substance is made up of, but he draws on studies of the heredity of radiation-induced mutations and even connects them to 鈥渜uantum jumps鈥 from his domain of expertise. He ruminates on what kind of solid this hereditary substance could be and how quantum theory could explain some of its stability. His other major hypothesis is that a living organism needs 鈥渘egative entropy鈥 鈥 to escape always eventually becoming disordered, it must be 鈥渃ontinuously sucking orderliness from its environment鈥. How exactly does all this come together? Schr枚dinger posits that we may need new laws of physics to fully answer that question.

Upon its publication in 1944, What is Life? was incredibly influential, and is reported to have inspired several physicists to turn to biology. Popular audiences read it, and kept reading it, too, so the book routinely makes 鈥渂est of鈥 lists. But chemists and biologists received it less warmly.

Nobel laureate about the ample amount of contemporaneous research that Schr枚dinger could have read to find answers to some of his questions. For example, his bafflement at how a tiny piece of hereditary substance in a cell can be reproduced during cell division without being destroyed by fluctuations could have been avoided by better understanding ideas around enzymes that participate in this process. Pertuz also criticised the idea of negative entropy.

More recently, writer noted that Schr枚dinger could have understood this concept more had he engaged with ideas that connect entropy and information, for instance Leo Szilard鈥檚 1929 resolution to the famous Maxwell鈥檚 demon paradox, where the rise of disorder also seemed to be mysteriously stymied.

Despite those very valid criticisms, What is Life? still feels prescient in 2026. As a former physicist, I am probably a more sympathetic reader than someone who lives and breathes the ins and outs of modern genetics. But whenever I have interviewed biophysicists, I have also heard echoes of What is Life? in their words. Just last year, a researcher told me about the long-term prospect of formulating a new law of physics for living matter. Another alerted me to the words of physicist at the University of California, Santa Barbara: 鈥淚f you鈥檙e in equilibrium, you鈥檙e dead.鈥 That is exactly what Schr枚dinger was thinking through in the 1940s!

In 2021, biophysicist at the California Institute of Technology What is Life? is best read as 鈥渁 manifesto about the frontiers of physics and the way that every time physics tackles new classes of phenomena, it requires new concepts and ultimately results in the formulation of new laws鈥. I am inclined to agree. Schr枚dinger鈥檚 grasp of biology and chemistry is imperfect at best, but his physicist鈥檚 intuition has stood the test of time.

Will physicists ever be the right people to spell out the exact mechanism by which something is alive, instead of being an inanimate pile of atoms? This is a question for philosophers of science, but also one that research conducted in the coming years could really illuminate. This is as exciting as it is infuriating, a sentiment that Schr枚dinger not just captured, but tried to tackle more than 80 years ago.

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