The key function for representing where astronomical things are is AstroPosition. Oh, and there’s the question of where things “are,” versus where things appear to be-because of effects ranging from light-propagation delays to refraction in the Earth’s atmosphere. But in astronomy-especially with everything moving-describing where things are is much more complicated. And on the Earth, latitude and longitude are good standard ways to describe where things are. Relativity also isn’t important in geography, but it is in astronomy. Mountains don’t move (at least perceptibly), but planets certainly do. But what’s new now is astronomical computation fully integrated. Yes, the Wolfram Language (and WolframAlpha) have had astronomical data for well over a decade. But astro is substantially more complicated. Astronomy has been a driving force for computation for more than 2000 years (from the Antikythera device on) and in Version 13.2 it’s coming to Wolfram Language in a big way. In many ways, our astro computation capabilities are modeled on our geo computation ones. Call 1-800-WOLFRAM MondayFriday, 8am5am US Central Time. Find out if you have access through your organization. But what’s new now is astronomical computation fully integrated into the system. Sign in or create a Wolfram ID to get your free 30-day trial of System Modeler via download. Yes, the Wolfram Language (and Wolfram|Alpha) have had astronomical data for well over a decade. Here are the updates in astro computation since then, including the latest features in 13.2.Īstronomy has been a driving force for computation for more than 2000 years (from the Antikythera device on)… and in Version 13.2 it’s coming to Wolfram Language in a big way. Last year we released Version 13.1 of the Wolfram Language.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |