This audiobook is narrated by a digital voice.

The story of life begins long before the first cell took shape. On the early Earth, more than four billion years ago, the planet was a volatile environment shaped by intense volcanic activity, frequent asteroid impacts, and a chemically rich atmosphere. Despite the chaos, this setting provided the essential ingredients and conditions for life's molecular foundation to form. Understanding the chemical origins of life means tracing the transition from a world of simple inorganic molecules to the complex organic compounds that became the building blocks of life.

One of the most influential theories regarding this transition is the concept of a "primordial soup"—a mixture of water and simple chemicals like methane, ammonia, hydrogen, and carbon dioxide. These molecules, energized by lightning, ultraviolet radiation, or geothermal heat, could undergo chemical reactions leading to the formation of more complex organic compounds. This idea gained experimental support in the 1950s through the famous Miller-Urey experiment, which demonstrated that amino acids—essential components of proteins—could be synthesized from simple gases under early Earth-like conditions.

Water, present in vast oceans even in Earth's earliest history, played a vital role in fostering these chemical reactions. As a solvent, it allowed molecules to move freely, collide, and react. Over time, these reactions gave rise to a variety of organic molecules, including amino acids, nucleotides, lipids, and sugars. These compounds, under the right conditions, began to self-organize into more stable and complex structures.