If the evolution of the Universe is a movie, what happens when we rewind it all the way backward?
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Scientific surprises, driven by experiment, are often how science advances. But more often than not, they’re just bad science.
No matter how good our measurement devices get, certain quantum properties always possess an inherent uncertainty. Can we figure out why?
The evidence that the Universe is expanding is overwhelming. But how? By stretching the existing space, or by creating new space itself?
It’s not about particle-antiparticle pairs falling into or escaping from a black hole. A deeper explanation alters our view of reality.
Glueballs are an unusual, unconfirmed Standard Model prediction, suggesting bound states of gluons alone exist. We just found our first one.
The ultimate definition of trauma, explained by leading psychiatrist Bessel van der Kolk.
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Dark energy is one of the biggest mysteries in all the Universe. Is there some way to avoid “having to live with it?”
Contrary to common experience, not everything needs a medium to travel through. Overcoming that assumption removes the need for an aether.
Einstein called his idea “abominable,” but the world of physics came around to embracing the views of Georges Lemaître.
No matter how good our measurement devices get, certain quantum properties always possess an inherent uncertainty. Can we figure out why?
Philosophy can focus on some dull topics. Luckily, some thinkers have spent lots of time on the philosophy of sex
Scientists can make substantial progress without fully understanding exactly what they’re doing.
Holograms preserve all of an object’s 3D information, but on a 2D surface. Could the holographic Universe idea lead us to higher dimensions?
The difference between predictions and observations of the magnetic properties of muons suggests a mystery for the Standard Model.
Taught in every introductory physics class for centuries, the parabola is only an imperfect approximation for the true path of a projectile.
We know the Universe is expanding, but scientists don’t agree on the rate. This is a legitimate problem.
Without wormholes, warp drive, or some type of new matter, energy, or physics, everyone is limited by the speed of light. Or are they?
Nothing lives forever, at least, not in the physical Universe. But relativity allows us to get closer than ever, from one perspective.
If our Universe were born a little differently, there wouldn’t have been any planets, stars, galaxies, or chemically interesting reactions.
Empty space itself, the quantum vacuum, could be in either a true, stable state or a false, unstable state. Our fate depends on the answer.
The mutual distance between well-separated galaxies increases with time as the Universe expands. What else expands, and what doesn’t?
In the expanding Universe, different ways of measuring its rate give incompatible answers. Nobel Laureate Adam Riess explains what it means.
If you bring too much mass or energy together in one location, you’ll inevitably create a black hole. So why didn’t the Big Bang become one?
We think of physical reality as what objectively exists, independent of any observer. But relativity and quantum physics say otherwise.
A concept known as “wave-particle duality” famously applies to light. But it also applies to all matter — including you.
Twin Health lets patients with diabetes see what’s happening inside their own body and can model each patient’s unique metabolism.
Unless you confront your theory with what’s actually out there in the Universe, you’re playing in the sandbox, not engaging in science.
The first observational evidence showing the Universe is expanding is 100 years old now: in 2023. Here’s the story of its 100th anniversary.
The Universe didn’t begin with a bang, but with an inflationary “whoosh” that came before. Here are the biggest questions that still remain.