The Universe is out there, waiting for you to discover it.
Our mission: to answer, scientifically, the biggest questions of all.
- What is our Universe made of?
- How did it become the way it is today?
- Where did everything come from?
- What is the ultimate fate of the cosmos?
For countless generations, these were questions without resolutions. Now, for the first time in history, we have scientific answers. Starts With A Bang, written by Dr. Ethan Siegel, brings these stories — of what we know and how we know it — directly to you.
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Why power generated through nuclear fusion will be the future, but not the present, solution to humanity’s energy needs.
It’s a strange idea to consider: that a tiny building block of matter, the atomic nucleus, holds the greatest potential for energy release.
And yet, it’s true; while electron transitions in atoms or molecules typically release energy on the order of ~1 electron-Volt, nuclear transitions between different configurations release energies a million times as great, on the order of ~1 Mega-electron-Volt.
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From before the Big Bang to the present day, the Universe goes through many eras. Dark energy heralds the final one.
A wild, compelling idea without a direct, practical test, the Multiverse is highly controversial. But its supporting pillars sure are stable.
The surface and atmosphere is colored by ferric oxides. Beneath a very thin layer, mere millimeters deep in places, it’s not red anymore.
The first supernova ever discovered through its X-rays has an enormously powerful engine at its core. It’s unlike anything ever seen.
Just 13.8 billion years after the hot Big Bang, we can see 46.1 billion light-years away in all directions. Doesn’t that violate…something?
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Earth is the Solar System’s only known inhabited planet. Could Venus, if its phosphine signal is real, be our second world with life?
On July 12, 2022, NASA will release the first science images taken with the James Webb Space Telescope. Here’s what to hope for.
The James Webb Space Telescope is about to begin science operations. Here’s what astronomers are excited about.
In all of science, no figures have changed the world more than Einstein and Newton. Will anyone ever be as revolutionary again?
If you want to understand the Universe, cosmologically, you just can’t do it without the Friedmann equation. With it, the cosmos is yours.
We’ve only seen Uranus up close once: from Voyager 2, back in 1986. The next time we do it, its features will look entirely different.
The Standard Model of elementary particles has three nearly identical copies of particles: generations. And nobody knows why.
On July 12, 2022, JWST will release its first science images. Here are 5 ways the telescope’s findings could change science forever.
Wind energy is one of the cleanest, greenest sources of power. But could it have the sneaky side-effect of changing the weather?
Smashing things together at unprecedented energies sounds dangerous. But it’s nothing the Universe hasn’t already seen, and survived.
Humans who’ve lived through the same events often remember them differently. Could quantum physics be responsible?
In theory, the fabric of space could have been curved in any way imaginable. So why is the Universe flat when we measure it?
The observable Universe is 92 billion light-years in diameter. These pictures put just how large that is in perspective.
Over time, the Universe becomes less dominated by dark matter and more dominated by dark energy. Is one transforming into the other?
The hyperloop would be a great idea for a completely flat planet. With topography and infrastructure, it’s a very different story.
13.8 billion years ago, the hot Big Bang gave rise to the Universe we know. Here’s why the reverse, a Big Crunch, isn’t how it will end.
Atomic clocks keep time accurately to within 1 second every 33 billion years. Nuclear clocks could blow them all away.
In all of human history, only 5 spacecraft have had the right trajectory to exit the Solar System. Will they ever catch Voyager 1?
Everything is made of matter, not antimatter, including black holes. If antimatter black holes existed, what would they do?
The sky is blue. The oceans are blue. While science can explain them both, the reasons for each are entirely different.
At four million solar masses, the Milky Way’s supermassive black hole is quite small for a galaxy its size. Did we lose the original?
Time isn’t the same for everyone, even on Earth. Flying around the world gave Einstein the ultimate test. No one is immune from relativity.
The idea of black holes has been around for over 200 years. Today, we’re seeing them in previously unimaginable ways.
After years of analysis, the Event Horizon Telescope team has finally revealed what the Milky Way’s central black hole looks like.
In Sun-like stars, hydrogen gets fused into helium. In the Big Bang, hydrogen fusion also makes helium. But they aren’t close to the same.
Drop sodium in water, and a violent, even explosive reaction will occur. But quantum physics is needed to explain why.
The Standard Model may or may not be in trouble, but particle physics definitely needs saving. Here’s what the new LHC can do.
Everything that gets heated up has to, somehow, radiate that energy away. Here’s what we see when that happens in the Universe.
For a thousand light-years in all directions, there’s a “bubble” that the Sun sits at the center of. Here’s the story behind it.
Probably not. Even though we’re still investigating the origin of life, the evidence suggests that cells came much later.