• kuontom@kbin.socialOP
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    1 year ago

    See the image feature from NASA here -> nasa.gov/image-feature/goddard/2023/hubble-checks-in-on-a-galactic-neighbor

    The highly irregular galaxy ESO 174-1, which resembles a lonely, hazy cloud against a backdrop of bright stars, dominates this image from the NASA/ESA Hubble Space Telescope. ESO 174-1 lies around 11 million light-years from Earth and consists of a bright cloud of stars and a faint, meandering tendril of dark gas and dust.

    This image is part of a collection of Hubble observations designed to better understand our nearby galactic neighbors. The observations aim to resolve the brightest stars and basic properties of every known galaxy within 10 megaparsecs. A parsec is a unit used by astronomers to measure the vast distances to other galaxies – 10 megaparsecs translates to 32 million light-years – and makes astronomical distances easier to handle. For example, the nearest star to the Sun, Proxima Centauri, is about 1.3 parsecs away. In everyday units this is a staggering 25 trillion miles (40 trillion km)!

    The program to capture all of our neighboring galaxies was designed to use the 2-3% of Hubble time available between observations. It’s inefficient for Hubble to make back-to-back observations of objects that are in opposite parts of the sky. Observing programs like the one that captured ESO 174-1 fill the gaps between other observations. This way the telescope can move gradually from one observation to another, while still collecting data. These fill-in observing programs make the most out of every last minute of Hubble’s observing time.

    • CFinley97@kbin.social
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      1 year ago

      This is incredible. Thank you for sharing the context.

      Fascinating insight on how they schedule the Hubble’s time!

  • XGC75@kbin.social
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    1 year ago

    I love that you can identify Hubble vs JWST images by the light diffraction spikes (someone tell me what they’re called please). 4=Hubble 6=JWST