33 min listen
Astronomy Cast Ep. 717: Understanding the Ages of Distant Cosmic Objects
Astronomy Cast Ep. 717: Understanding the Ages of Distant Cosmic Objects
ratings:
Length:
30 minutes
Released:
Apr 29, 2024
Format:
Podcast episode
Description
https://www.youtube.com/watch?v=MWA3OUyQQIQ Streamed live on Apr 22, 2024. How old is that star? That planet? That nebula? Figuring out the ages of astronomical objects is surprisingly challenging. Fortunately, astronomers have developed a series of techniques they can use to work out the ages of stuff. This video was made possible by the following Patreon members: Jordan Young BogieNet Stephen Veit Jeanette Wink Siggi Kemmler Andrew Poelstra Brian Cagle David Truog Ed David Gerhard Schwarzer THANK YOU! - Fraser and Dr. Pamela We've added a new way to donate to 365 Days of Astronomy to support editing, hosting, and production costs. Just visit: https://www.patreon.com/365DaysOfAstronomy and donate as much as you can! Share the podcast with your friends and send the Patreon link to them too! Every bit helps! Thank you! ------------------------------------ Do go visit http://www.redbubble.com/people/CosmoQuestX/shop for cool Astronomy Cast and CosmoQuest t-shirts, coffee mugs and other awesomeness! http://cosmoquest.org/Donate This show is made possible through your donations. Thank you! (Haven't donated? It's not too late! Just click!) ------------------------------------ The 365 Days of Astronomy Podcast is produced by the Planetary Science Institute. http://www.psi.edu Visit us on the web at 365DaysOfAstronomy.org or email us at info@365DaysOfAstronomy.org.
Released:
Apr 29, 2024
Format:
Podcast episode
Titles in the series (100)
Astronomy Cast Questions Show: Matter Balance, Jumping Light Speed and Black Hole Star Formation: From June 25, 2009. Why was there a difference between the amount of matter and antimatter at the beginning of the Universe? Mathematics lets us travel faster than light speed, so why can’t we? And are there stars forming around black holes? ... by The 365 Days of Astronomy