Update 2025 April 28: (1) It took a lot of work but we finished preparing another great batch of images, thanks for your patience! (2) Welcome University of Washington undergraduate student Naomi to the project science team! (3) New to the project? Check out this incredible and accurate AI-generated podcast about our super-paper! (4) Stay tuned for an exciting new Active Asteroids subproject that will include data from the Canada-France-Hawaii Telescope (CFHT)! This will be an alternate workflow we hope to have live in May 2025!
Examine images to find comet-like tails... on asteroids! These strange objects hold clues about water on Earth, in the solar system, and beyond.
Learn moreWe ask Citizens to judge whether or not an object might be active by presenting two astronomical images taken at different times that have the object in the middle. Once a consensus is reached that an object is active, these objects will be presented as part of a second workflow which asks Citizens to describe the apparent level of activity emanating from the object as well as the general shape of the activity.
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Active Asteroids Statistics
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Message from the researcher
Asteroids with tails!? As strange as it may sound, these objects actually exist. They hold clues to the mysteries of where terrestrial water came from and where water in the solar system is located today.
OrionNAUAbout Active Asteroids
The Active Asteroids project is designed to help answer two important and outstanding questions in astronomy: where did the water on Earth come from, and where else can we find water in the solar system today? Answering these questions will have important implications for science and engineering. For example, astrobiologists know life seems to need water in order to exist, so to know where to find life in our solar system (and beyond) they need to know where water can be found! These places are known as "volatile reservoirs" because they hold water or other volatiles such as dry ice. Characterizing the solar system volatile distribution will help geologists and planetary scientists settle the ongoing debate about how much of Earth's water was delivered after our planet was born. And knowing where volatiles are found will inform engineers about potential fuel sources for space travel. Recently it has come to light that asteroids can have ices on their surfaces, and can even have comet-like activity such as tails! These findings indicate asteroids are a volatile reservoir, but fewer than 30 active asteroids have been discovered since 1949. As a result, active asteroids are poorly understood. We need to discover more of these mysterious objects in order to study them as a population. Only then can we shed light on this important clue about our origin in the solar system and where we can find extraterrestrial volatiles today.
For more NASA citizen science projects, go to science.nasa.gov/citizenscience