The Science of Life – From Earth to the Stars

The Universe

The universe is 13.8 billion years old, 93 billion light-years across, and contains roughly two trillion galaxies. A century ago we did not know any of those numbers. We have learned them by building better instruments, asking harder questions, and accepting answers that sometimes upended everything we thought we understood. This is the largest scale of the structured map of reality — and it is the right place to start.

What makes cosmology distinctive is how directly it confronts the limits of knowledge. We can observe the cosmic microwave background — the afterglow of the Big Bang — but we cannot observe what preceded it. We can measure that 68% of the universe is dark energy, but we do not know what dark energy is. We can detect dark matter’s gravitational effects with precision, but no detector has caught a dark matter particle directly. The universe is not just large. It is mostly unknown.

The core questions at this scale

  • What happened in the first fractions of a second after the Big Bang, and what — if anything — came before?
  • Why is the expansion of the universe accelerating instead of slowing?
  • Is our universe one of many, or genuinely unique?
  • What is dark matter, and what is dark energy?
  • How did the large-scale structure — galaxy filaments, voids, clusters — assemble from an almost perfectly smooth beginning?

Foundations

These are the core explainers for the Universe layer — the articles that establish the vocabulary and the key results.

Frontier questions

These articles push to the edge of what cosmology currently knows — or speculates about.


→ Layer below: Matter — the particles and forces that fill this universe