Contact FutureLearn for Support
Skip main navigation
We use cookies to give you a better experience, if that’s ok you can close this message and carry on browsing. For more info read our cookies policy.
We use cookies to give you a better experience. Carry on browsing if you're happy with this, or read our cookies policy for more information.

Skip to 0 minutes and 9 secondsHow big is the universe? Everywhere you look there are stars. These are in our galaxy, the Milky Way. Light takes 100,000 years to cross our galaxy. If the whole of our solar system, including the vast bubble of comments surrounding us, was the size of a toilet cubicle, the Milky Way would span the distance from Greenwich to Maidstone. Beyond the stars are even more star cities, galaxies of different shapes, colours, sizes stretching out across space for billions of light years. The closest big galaxy to us is Andromeda. If we sent a text message out to aliens in Andromeda, it would take 2 and 1/2 million years to reach them.

Skip to 0 minutes and 49 secondsWhen we look at galaxies through our telescopes, their light might have taken millions or billions of years to reach us, by which point they would have aged and they might not even exist anymore. It's as if we're trapped on a desert island. We experience a horizon in all directions, beyond which we can't see anything. However, our cosmic horizon is receding all the time, as light eventually reaches us from farther and farther galaxies. This is like waiting for photos to be delivered to us from distant parts of the earth whilst on our desert island. Unlike our earthly ships, light travels at a whopping speed of 300 million metres per second.

Skip to 1 minute and 27 secondsBut even light takes a finite amount of time to reach us, and this sets our current cosmic horizon.

Skip to 1 minute and 35 secondsWhat can we actually see with our telescopes? Well, we can't see light from the birth of the universe. The early universe was a very hot, small, dense place where light continuously bumped into matter. About 380,000 years after the big bang, the universe was large enough and cool enough for atoms to form, and for light to travel freely through space. This includes the ancient radiation from the big bang which we can see in all directions. After about 200 million years, the first stars formed, and then galaxies, and then eventually the Milky Way, including our solar system. If the lifetime of the universe was a 10 hour movie, humans would only appear in the last second of the film.

Skip to 2 minutes and 21 secondsRemember, during all this time, the universe has been continuously growing over a period of 13.8 billion years. That's three times the age of our solar system. So does this mean that the universe is 13.8 billion light years big? The answer is no. When light first left a faraway galaxy, it was much closer to us. But over time, the universe has expanded like a huge balloon so the light has taken longer to reach us. Over large enough distances, space can expand faster than the speed of light. This means that signals sent from one galaxy to another would never reach their destination, forever beyond contact. Imagine the universe is a stretchy sheet.

Skip to 3 minutes and 6 secondsIf we pull it in all directions, we can find out how much it stretched by if we know the original size. To explain the current size of the universe, scientists think space rapidly inflated just after the big bang. It continued to expand at a much slower rate, slowing down further due to the gravitational pull of new young galaxies. We can calculate the real size of the universe by taking into account all of the matter and the energy present and its current rate of expansion, and another mysterious component.

Skip to 3 minutes and 39 secondsWe've seen that very distant exploding stars called supernovae are dimmer than expected, and this tells us that the universe is bigger than we thought and it's getting bigger at an ever increasing rate. So what's causing this anti-gravity effect? The exotic, mysterious component of our universe that cosmologists have introduced is called dark energy, which acts as a gravity repellent. Gravity is still fighting strong and holding together galaxies, stars and planets over large scales. However, dark energy wins, pushing everything out and away from everything else until eventually star birth will become impossible.

Skip to 4 minutes and 18 secondsSo based on all the information we currently have, the proper size of the universe is 93 billion light years crossed, or 884 billion trillion kilometres, or if our solar system was the size of a toilet cubicle it would span the distance from Earth all the way to Venus. Pretty big eh?

Tackling the unimaginable

We often get asked about the nature of the cosmos by schoolchildren. We like to start simple, with something they are familiar with and then work from there. When discussing how big the Universe is we talk about the following:

  • Beyond our town/city there are other towns/cities.
  • Beyond our country there are other countries.
  • We all live on the planet Earth, a huge ball of rock.
  • If you started walking in a straight line, and kept walking, never stopping, you would eventually cover a distance of 40 000 km and you would arrive back at the same spot! Our Earth is a sphere, as are all the other planets in our solar system.
  • If you look up, you see the sky. Our atmosphere extends upwards to a height of around 100 km, after which you are pretty much in space.
  • What if you were to take a journey to the Moon? Well the distance to the Moon is almost 10 times the distance you would cover walking around the Earth. In a space rocket it would take around 3 days to get there safely (including going into orbit).
  • If we kept going then we might reach other planets. In the future people will go to Mars - it will take them 6 months, covering a distance of at least 60 million km. One of these astronauts might be you!
  • Eventually we might leave the Solar System, a whopping big distance of 8 trillion km!! Travelling at the launch speed of a rocket it would take us around 33 000 years to leave the Solar System entirely - way past the final planet Neptune and outside the big bubble of icy comets surrounding us.
  • The next star, Proxima Centauri is over 4 light-years away. The light from this star takes 4 years to reach us. We can’t travel at the speed of light, it would take us at least 70 000 years to get there in our space capsule.
  • To reach the edge of the Milky Way galaxy would take 1.3 billion years, wow!!
  • To reach the nearest big galaxy to us, Andromeda, would take, wait for it - around 45 billion years, that’s 10 times the age of the Earth! A text message would take 2.5 million years to reach Andromeda.
  • Finally, to reach the current “edge” of the Universe (although there is no real edge), it would take us…………..800 trillion years, that’s an 8 with 14 zeros after it.

Who would like to attempt that journey?!

Share this video:

This video is from the free online course:

Teaching Primary Science: the Solar System and Beyond

Royal Observatory Greenwich