Despite many ultra-distant galaxy candidates found with JWST, we still haven’t seen anything from the Universe’s first 250 million years.

LHC scientists just showed that spooky quantum entanglement applies to the highest-energy, shortest-lived particles of all: top quarks.

Just 460 light-years away, the closest newborn protostars are forming in the Taurus molecular cloud. Here are JWST’s astonishing insights.

It’s possible to remove all forms of matter, radiation, and curvature from space. When you do, dark energy still remains. Is this mandatory?

Do we actually live in a deterministic Universe, despite quantum physics? An alternative, non-spooky interpretation has now been ruled out.

With the discovery of Porphyrion, we’ve now seen black hole jets spanning 24 million light-years: the scale of the cosmic web.

It would get rid of our hazardous, radioactive, and pollutive waste for good, but physics tells us it’s a losing strategy for elimination.

Almost all of the stars, planets, and interesting physics happens in the inner portions of galaxies. Is that conventional wisdom all wrong?

Within our observable Universe, there’s only one Earth and one “you.” But in a vast multiverse, so much more becomes possible.

The laws of physics aren’t changing. But the Earth’s conditions are different than what they used to be, and so are hurricanes as a result.

Most fundamental constants could be a little larger or smaller, and our Universe would still be similar. But not the mass of the electron.

In the expanding Universe, different ways of measuring its rate give incompatible answers. Nobel Laureate Adam Riess explains what it means.

The Lyman-α emission line has never been seen earlier than 550 million years after the Big Bang. So why does JADES-GS-z13-1-LA have one?

Galactic activity doesn’t just arrive when supermassive black holes feast on matter. Before, during, and after all create fascinating signs.

Although a great many unidentified sights have been seen in the skies, none have conclusively demonstrated the presence of aliens. So far.

Taught in every introductory physics class for centuries, the parabola is only an imperfect approximation for the true path of a projectile.

Inflation, dark matter, and string theory are all proposed extensions to the prior consensus picture. But what does the evidence say?

The observation that everything we know is made out of matter and not antimatter is one of nature’s greatest puzzles. Will we ever solve it?

The mass that gravitates and the mass that resists motion are, somehow, the same mass. But even Einstein didn’t know why this is so.

Scientific surprises, driven by experiment, are often how science advances. But more often than not, they’re just bad science.

The “little red dots” were touted as being too massive, too early, for cosmology to explain. With new knowledge, everything adds up.

Here on Earth, we commonly use terms like weight (in pounds) and mass (in kilograms) as though they’re interchangeable. They’re not.

So far, Earth is the only planet that we’re certain possesses active life processes. Here’s what we shouldn’t assume about life elsewhere.

The Universe isn’t just expansion, but the expansion itself is accelerating. So why can’t we feel it in any measurable way?

No matter how good our measurement devices get, certain quantum properties always possess an inherent uncertainty. Can we figure out why?

Life arose on Earth early on, eventually giving rise to us: intelligent and technologically advanced. “First contact” still remains elusive.

If you think of the Big Bang as an explosion, we can trace it back to a single point-of-origin. But what if it happened everywhere at once?

The Universe is 13.8 billion years old, going back to the hot Big Bang. But was that truly the beginning, and is that truly its age?

Many contrarians dispute that cosmic inflation occurred. The evidence says otherwise.

In all the Universe, only a few particles are eternally stable. The photon, the quantum of light, has an infinite lifetime. Or does it?