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Tuesday 12th July, 14:30 UTC

Make a note in your own time zone Zespacebloggers, probably the biggest event in astronomy in our lifetimes is about to drop a large amount of images and data from the new JWST.

Nasa has kindly provided us with a few images that are amongst the first targets of the JWST, some very familiar to those on this blog, and others that may become the new iconic images as we move from the Hubble era into the JWST one.

The Carina Nebula, a common feature here, and one of the most spectacular nebula's in our night sky. The nebula is located 8,500 light years from Earth in the constellation of Carina and contains the famous Eta Carina.

Next on the list is an exoplanet, WASP 96 B, a planet half the size of Jupiter orbiting it's sun every 3.4 days, and JWST has managed to capture a spectrum of light from the atmosphere of this planet as it passes between us and it's star. While this won't be a pretty picture of a planet, the ability to read the spectrum of light from a exoplanet, will allow us to give a much better view of the atmosphere and what it's actually made up of, not bad for a planet over 1,150 light years from Earth.

Next up is the Southern Ring Nebula NGC 3132, 2,000 light years from Earth in the constellation of Vela. This is a planetary nebula, the final shedding of the atmosphere of a star that was once not too dissimilar to our own sun. If you look closely you can see there are two stars in the centre, the white dwarf responsible for the ring is the small dot just above a binary partner star that has yet to end it's life. The heat from the tiny white dwarf is what is responsible for the nebula glow, as it bombards it with UV radiation.

Stephan's Quintet featured here recently, is a group of galaxies 290 million light years from Earth, I personally can't wait to see this one from JWST.

Finally there is SMACS 0723, a distant cluster of galaxies that include many examples of gravitational lensing, and I would suspect, this is the deep space image that is attempting to use that gravitational lensing to see further back in time than ever before, just a 100+ million years after the big bang.

There's a HUGE amount to look forward to this week, and just as we still turn to Hubble to take our breath away, the material coming from JWST will continue to do this long into the future.