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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Many still cling to the idea that we live in a deterministic Universe, despite the nature of quantum physics. Now, the “least spooky” interpretation no longer works.
We haven’t seen a partial eclipse lasting this long since 1440, and won’t again until 2669. North America is perfectly positioned for 2021’s.
Although most of the Universe’s mass is dark matter, which gravitates just as well as normal matter, it still can’t make black holes.
The latest gravitational wave data from LIGO and Virgo finally shows us the truth: there are no “gaps” in the masses of black holes.
Based on the atoms that they’re made out of, the innermost planet should always be the densest. Here’s why Earth beats Mercury, hands down.
It had long seemed impossible that supermassive black holes could grow to such enormous sizes. But the biggest problem is now solved.
There are over 100 known elements in the periodic table. These 8 ways of making them account for every one.
Big dreams and big telescopes are back at last, but everything depends on sufficiently funding NASA, the NSF, and the DOE.
There’s a big difference between the notions of ‘false vacuum’ and ‘true vacuum’ states. Here’s why we don’t want to live in the former.
The Kalam cosmological argument asserts that everything that exists has a cause, and what caused the Universe? It’s got to be God.
In 2006, Pluto was demoted in a very controversial decision. Unless you ignore nearly all of planetary science, it’ll never be one again.
Our Sun will continue to grow, becoming a red giant and then a planetary nebula. Here’s how large it will get.
Quantum physics isn’t quite magic, but it requires an entirely novel set of rules to make sense of the quantum universe.
Named M51-ULS-1b, it’s certainly a curious astronomical event. But the evidence is far too weak to conclude “planet.”
The first world that humans should inhabit beyond the Earth is the Moon, not Mars. Here’s why terraforming our lunar neighbor is so appealing.
As the first Friedmann equation celebrates its 99th anniversary, it remains the one equation to describe our entire universe.
The universe is filled with unlikely events, but is also full of ways to fool ourselves.
It’s been precisely 13.8 billion years since the Big Bang occurred. Here’s how we know.
An unprecedented number of new satellites threatens the night sky as we know it. Will we act in time to save it?
Put two grapes close together in a microwave and you’ll get an electrifying result, all because of the physics of plasmas.
For the past 150+ years, the big ones have all missed us. But at some point, our good luck will run out.
Even if we traveled at the speed of light, we’d never catch up to these galaxies.
The “overview effect,” experienced by astronauts when they view the Earth from outer space, irrevocably changes your perspective as a human.
We used to think the Big Bang meant the universe began from a singularity. Nearly 100 years later, we’re not so sure.
Migrating our planet to a safer orbit might be the only way to preserve Earth after all the ice melts.
Chemical energy, where electrons transition in atoms, powers the reactions we see. But two other types hold more promise than all the rest.
Many contrarians dispute that cosmic inflation occurred. The evidence says otherwise.
From wearable electronics to microscopic sensors to telemedicine, new advances like graphene and supercapacitors are bringing “impossible” electronics to life.
It’s not for climate science and condensed matter physics. It’s for advancing our understanding beyond spherical cows.
Saturn’s Iapetus, discovered way back in 1671, has three bizarre features that science still can’t fully explain.