Study: Titan’s lakes may be shaped by waves
MIT researchers find wave activity on Saturn’s largest moon may be strong enough to erode the coastlines of lakes and seas.
MIT researchers find wave activity on Saturn’s largest moon may be strong enough to erode the coastlines of lakes and seas.
American Astronomical Society’s Division on Dynamical Astronomy honors the assistant professor and MIT Kavli member for contributions to the dynamics of multi-planet extrasolar systems.
Sunspots and flares could be a product of a shallow magnetic field, according to surprising new findings that may help scientists predict space weather.
The results offer a new way to probe supermassive black holes and their evolution across the universe.
Portugal’s second-ever satellite was developed in collaboration with the MIT Portugal Program.
Circling a cold, Jupiter-sized star, the new world could offer an unobstructed view of its surface composition and history.
A new MIT system could help astronauts conserve energy and extend missions on the lunar surface.
The new world is the second-lightest planet discovered to date.
Three stars circling the Milky Way’s halo formed 12 to 13 billion years ago.
The observations suggest some of earliest “monster” black holes grew from massive cosmic seeds.
Such discoveries help researchers better understand the development of molecular complexity in space during star formation.
The award recognizes exceptional distinction in teaching, research, and service at MIT.
Hundreds of observers took advantage of great weather to view the 2024 partial eclipse.
In a first, four different technologies will monitor changes in the upper atmosphere, locally and across the continent, as the sun’s radiation dips.
Brian Mernoff of the Department of Aeronautics and Astronautics offers best practices to get the most out of your eclipse experience.