Our website uses cookies to understand content and feature usage to drive site improvements over time. To learn more, review our Terms of Use and Privacy Policy.
The Big Bang
The Big Bang
We may not know everything about the Big Bang, but there’s a lot we do know. Our knowledge of the Universe begins just a fraction of a second after the Big Bang took place.
As this video progresses, key ideas will be introduced to invoke discussion.
Think about the following questions as you watch the video
What were the first elements in the Universe?
Why is the Big Bang the first threshold of increasing complexity?
What evidence do we have that the Big Bang happened?
What questions do we still have about the Big Bang?
: The beginning of everything was nothing. Well, not nothing exactly. Over 13.8 8 billion years ago,
: there may have been something. But scientists don't really know for sure what happened before the Big Bang
: that started our Universe. They do however, have a pretty good idea of what happened next.
: And it happened fast, like, really incredibly fast. In a fraction of a second, so small we wouldn't
: even notice that nothing or something expanded. And the Universe became a hot, dense, soup of all
: the energy and materials that would make up everything, ever. After that, things slowed down
: a little. The hot, dense, soup kept expanding and cooled down enough to start sticking together
: and making stuff. Fast forward about 380,000 years and all that stuff came together into atoms, the
: smallest building blocks of the chemical elements that make up matter. Those early atoms were mostly
: hydrogen and helium, which are still by far the most abundant elements in the Universe. And a
: few hundred million years after that those elements got pulled together by gravity and
: formed the very first stars. The hot centers of those stars started to make all the other
: kinds of elements we have in the Universe today. Everything from carbon and oxygen, to silver, and
: gold. And in the next billions of years, those new materials got trapped in stars gravity to
: form planets, moons, and other space objects. Like, about 4.5 billion years ago our Sun formed and
: the leftover matter swirling around it became our Solar System including the Earth we know
: and love. Then, all of that matter came together on Earth to form everything that's here. The air
: we breathe, the water we drink, the land we live on, and all the plants animals and people we share it
: with. That's why the Big Bang is our first Threshold of Increasing Complexity, a major
: turning point in the history of the Universe. It's when that unimaginable something, or nothing,
: suddenly expanded to become everything we've ever imagined. It's when the Universe as we know it was born.
: That birth happened a long time ago, though. And if nobody was around to take a picture and
: put a little hat on the newborn Universe's head, how do we actually know what happened
: in the Big Bang? Or, if it happened at all? Well, it's because of one of our other Thresholds of
: Increasing Complexity, collective learning. Humans are really good at learning about
: stuff. Even stuff we can never witness firsthand. And over the past century or so, scientists have
: been finding evidence about the origins of our Universe and a lot of it points back to
: the Big Bang. Like, in the 1920s, astronomer Edwin Hubble figured out that the Universe is expanding.
: So, along with physicist Georges Lemaître, he theorized that if the Universe was growing it must at one
: point have been really really small. In the 1960s, astronomers Arno Penzias and Robert Wilson picked
: up some weird signals on a radio antenna that turned out to be cosmic microwave background
: radiation. Leftover heat from the time when the Universe began. And other scientists, including
: Albert Einstein tried to figure out how elements formed in the early Universe. They discovered
: that when stuff gets really, really, hot energy and matter can change into one another. Like how energy
: matter soup of the early Universe eventually cooled off and separated out into different
: elements. Those scientists could only figure that out because of the work of tons of people before
: them, who made observations and discoveries about math, physics, matter, and space. And today people are
: still building on those discoveries. But there's still a lot we don't know about how the Universe
: began. Like, whether something or nothing was there before, and why it suddenly expanded.
: There are other theories about how the Universe began too. Some people think it wasn't a Big Bang
: but a Big Bounce, where a previous Universe collapsed and then expanded again. Those questions,
: ideas, and more are still up in the air. And new generations of scientists are out there right