how far apart are the stars in the new euclid image?

The stars in Euclid’s new Milky Way core image are not evenly spaced , so there isn’t one single distance to give. In the crowded galactic bulge, stars can appear so close together that Euclid’s camera is needed to separate them clearly, and the image contains more than 60 million stars in a very dense region of the sky.

What “far apart” means here

Astronomers usually describe this in terms of angular separation on the sky, not a fixed physical distance, because the stars are at different depths and distances from us. In Euclid’s image, the important point is that it can distinguish individual stars in a supercrowded field that ground-based views struggle to resolve.

A simple way to think about it

Imagine looking at a packed city at night from far away: some lights are blended together, while a sharper camera can pick out each one. Euclid’s image does that for stars near the Milky Way’s center, revealing individual sources and even helping researchers study microlensing events and exoplanets.

Rough takeaway

So the best short answer is: the stars are extremely close together on the sky , often overlapping in a way that makes the region look almost saturated, but Euclid resolves them well enough to separate individual stars. The exact spacing varies by location in the image, so there is no single universal number for the whole picture.

TL;DR: Euclid’s new image shows a very crowded star field, with stars packed closely enough that only a high-resolution space telescope can cleanly separate them.