Space & Astrophysics
The Hubble Space Telescope, 32 years after its launch, broke the all-time record for most distant star. It won’t do better.
The story of how Jupiter, Saturn, Uranus and Neptune were made isn’t a universal one. Some gas giants were built different.
The light from Earendel took 12.9 billion years to reach Hubble. The star is millions of times brighter than our Sun and 50 times as massive.
Due to a crust of carbon, the absence of oxygen, and constant bombardment from meteorites, the planet Mercury may be littered with diamonds.
To study the origin of the Universe, we could build a constellation of six expensive spacecraft — or we could just use the Moon.
For some reason, when we talk about the age of stars, galaxies, and the Universe, we use “years” to measure time. Can we do better?
From life on Earth to the planet itself, there are four ways our planet will actually experience “the end,” no matter how we define it.
From the tablets of the Babylonians to the telescopes of modern science, humans have always looked to the skies for fundamental answers.
Galactic archaeology has uncovered a spectacular find: the Milky Way already existed more than 13 billion years ago.
Multiple lines of evidence — physical, chemical, and biological — must converge for scientists to conclude that alien life has been found.
To answer any physical question, you must ask the Universe itself. But what happens when the answers aren’t around anymore?
Even a tiny sliver of the Universe can reveal the cosmic story of what’s out there and how it came to be the way it is today.
Michio Kaku predicts, among other things, how we’ll build cities on Mars and why cancer will one day be like the common cold.
The closest star system to Earth, just over 4 light-years away, has three stars and at least one Earth-sized planet. Is it time to go there?
The James Webb Space Telescope could help scientists learn about the cosmic dark ages and how they ended.
In 1990, we only knew of the planets in our own Solar System. Today, the exoplanet count is more than 5000. Here’s what we’ve learned.
Empty, intergalactic space is just 2.725 K: not even three degrees above absolute zero. But the Boomerang Nebula is even colder.
When we started imaging the Universe with Hubble, every star had four “spikes” coming from it. Here’s why Webb will have more.
Forty Starlink satellites were destroyed earlier this year in a geomagnetic storm.
Knowing that technology would advance in the future, NASA put some moon rock samples into storage without opening them. Now, they have.
Aerial drone footage was sent to an AI trained to track down space rocks.
The far infrared reveals both the coldest and hottest gas in the Universe, and can teach us what no other wavelength range can.
Is there any good reason for assigning North and South the way we do, or could we have just as easily done the reverse?
It rotates on its axis, revolves around the Sun, moves throughout the Milky Way, and gets carried by our galaxy all throughout space.
The laws of physics state that you can’t create or destroy matter without also creating or destroying an equal amount of antimatter. So how are we here?
60% of all potentially dangerous asteroids remain undetected.
In the night sky for March of 2022, only stars and the Moon, not planets, will greet you. The real show, however, arrives just before dawn.
Despite all that we’ve learned about the Universe, there remain unanswered, and possibly unanswerable, questions. Could “God” be the answer?
Astronomers used supercomputers and an international network of antennas to create the stunning map.
If dark matter exists in a large halo in our galaxy, made up of particles, then it’s passing through us constantly. But how much?