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  • Written by Nicole Granucci, Instructor of Physics, Quinnipiac University
What is the universe expanding into if it’s already infinite?
Curious Kids[1] is a series for children of all ages. If you have a question you’d like an expert to answer, send it to curiouskidsus@theconversation.com[2]. What is the universe expanding into if it’s already infinite? – Mael, age 10, Missoula, Montana When you bake a loaf of bread or a batch of muffins, you put the dough into a pan. As the dough bakes in the oven, it expands into the baking pan. Any chocolate chips or blueberries in the muffin batter become farther away from each other as the muffin batter expands. The expansion of the universe is, in some ways, similar. But this analogy gets one thing wrong – while the dough expands into the baking pan, the universe doesn’t have anything to expand into. It just expands into itself. A diagram showing a muffin before and after it's baked, with the berries in the muffin farther apart after the baking process.
The universe expands like a baking muffin. The objects in space move farther apart, with more space between them. UChicago Creative

It can feel like a brain teaser, but the universe is considered everything within the universe. In the expanding universe, there is no pan. Just dough. Even if there were a pan, it would be part of the universe and therefore it would expand with the pan.

Even for me, a teaching professor in physics and astronomy[3] who has studied the universe for years, these ideas are hard to grasp. You don’t experience anything like this in your daily life. It’s like asking what direction is farther north of the North Pole.

Another way to think about the universe’s expansion is by thinking about how other galaxies are moving away from our galaxy, the Milky Way. Scientists know the universe is expanding because they can track other galaxies as they move away from ours. They define expansion using the rate that other galaxies move away from us. This definition allows them to imagine expansion without needing something to expand into.

The expanding universe

The universe started with the Big Bang 13.8 billion years ago[4]. The Big Bang describes the origin of the universe as an extremely dense, hot singularity. This tiny point suddenly went through a rapid expansion called inflation, where every place in the universe expanded outward. But the name Big Bang is misleading. It wasn’t a giant explosion[5], as the name suggests, but a time where the universe expanded rapidly.

The universe then quickly condensed and cooled down, and it started making matter and light. Eventually, it evolved to what we know today as our universe.

The idea that our universe was not static and could be expanding or contracting was first published by the physicist Alexander Friedman[6] in 1922. He confirmed mathematically that the universe is expanding.

While Friedman proved that the universe was expanding, at least in some spots, it was Edwin Hubble who looked deeper into the expansion rate. Many other scientists confirmed that other galaxies are moving away from the Milky Way, but in 1929, Hubble published his famous paper[7] that confirmed the entire universe was expanding, and that the rate it’s expanding at is increasing.

This discovery continues to puzzle astrophysicists. What phenomenon allows the universe to overcome the force of gravity keeping it together while also expanding by pulling objects in the universe apart? And on top of all that, its expansion rate is speeding up over time.

Many scientists use a visual called the expansion funnel to describe how the universe’s expansion has sped up since the Big Bang. Imagine a deep funnel with a wide brim. The left side of the funnel – the narrow end – represents the beginning of the universe. As you move toward the right, you are moving forward in time. The cone widening represents the universe’s expansion.

A funnel on its side, with a bright spot at the left which fans out into a wide mouth on the right. The expansion funnel visually shows how the universe’s rate of expansion has increased over time. At the left of the funnel is the Big Bang, and since then, the universe has expanded at a faster and faster rate. NASA[8]

Scientists haven’t been able to directly measure where the energy causing this accelerating expansion[9] comes from. They haven’t been able to detect it or measure it. Because they can’t see or directly measure this type of energy, they call it dark energy[10].

According to researchers’ models, dark energy must be the most common form of energy in the universe, making up about 68% of the total energy in the universe[11]. The energy from everyday matter, which makes up the Earth, the Sun and everything we can see, accounts for only about 5% of all energy.

A pie chart showing 68% of the universe as dark energy, 27% as dark matter and 5% as ordinary matter. Dark matter and dark energy make up most of the universe. Green Bank Observatory, CC BY-NC-ND[12][13]

Outside the expansion funnel

So, what is outside the expansion funnel?

Scientists don’t have evidence of anything beyond our known universe. However, some predict that there could be multiple universes[14]. A model that includes multiple universes could fix some of the problems scientists encounter with the current models of our universe.

One major problem with our current physics is that researchers can’t integrate[15] quantum mechanics[16], which describes how physics works on a very small scale, and gravity, which governs large-scale physics[17].

The rules for how matter behaves at the small scale depend on probability and quantized, or fixed, amounts of energy. At this scale, objects can come into and pop out of existence. Matter can behave as a wave[18]. The quantum world is very different from how we see the world.

At large scales, which physicists call classical mechanics[19], objects behave how we expect them to behave on a day-to-day basis. Objects are not quantized and can have continuous amounts of energy. Objects do not pop in and out of existence.

The quantum world behaves kind of like a light switch, where energy has only an on-off option. The world we see and interact with behaves like a dimmer switch, allowing for all levels of energy.

But researchers run into problems when they try to study gravity at the quantum level. At the small scale, physicists would have to assume gravity is quantized. But the research many of them have conducted[20] doesn’t support that idea.

Clouds of gas and stars. An infinitely expanding universe lies beyond the Milky Way galaxy. DECaPS2/DOE/FNAL/DECam/CTIO/NOIRLab/NSF/AURA, M. Zamani & D. de Martin via AP[21]

One way to make these theories work together is the multiverse theory[22]. There are many theories that look beyond our current universe to explain how gravity and the quantum world work together. Some of the leading theories include string theory[23], brane cosmology[24], loop quantum theory[25] and many others.

Regardless, the universe will continue to expand, with the distance between the Milky Way and most other galaxies getting longer over time.

Hello, curious kids! Do you have a question you’d like an expert to answer? Ask an adult to send your question to CuriousKidsUS@theconversation.com[26]. Please tell us your name, age and the city where you live.

And since curiosity has no age limit – adults, let us know what you’re wondering, too. We won’t be able to answer every question, but we will do our best.

References

  1. ^ Curious Kids (theconversation.com)
  2. ^ curiouskidsus@theconversation.com (theconversation.com)
  3. ^ teaching professor in physics and astronomy (www.qu.edu)
  4. ^ 13.8 billion years ago (science.nasa.gov)
  5. ^ It wasn’t a giant explosion (theconversation.com)
  6. ^ first published by the physicist Alexander Friedman (doi.org)
  7. ^ published his famous paper (doi.org)
  8. ^ NASA (svs.gsfc.nasa.gov)
  9. ^ energy causing this accelerating expansion (theconversation.com)
  10. ^ dark energy (www.space.com)
  11. ^ 68% of the total energy in the universe (arstechnica.com)
  12. ^ Green Bank Observatory (www.flickr.com)
  13. ^ CC BY-NC-ND (creativecommons.org)
  14. ^ there could be multiple universes (theconversation.com)
  15. ^ researchers can’t integrate (bigthink.com)
  16. ^ quantum mechanics (www.energy.gov)
  17. ^ governs large-scale physics (www.britannica.com)
  18. ^ Matter can behave as a wave (www.space.com)
  19. ^ classical mechanics (www.livescience.com)
  20. ^ the research many of them have conducted (www.quantamagazine.org)
  21. ^ DECaPS2/DOE/FNAL/DECam/CTIO/NOIRLab/NSF/AURA, M. Zamani & D. de Martin via AP (newsroom.ap.org)
  22. ^ multiverse theory (www.livescience.com)
  23. ^ string theory (www.space.com)
  24. ^ brane cosmology (en.wikipedia.org)
  25. ^ loop quantum theory (www.space.com)
  26. ^ CuriousKidsUS@theconversation.com (theconversation.com)

Authors: Nicole Granucci, Instructor of Physics, Quinnipiac University

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Metropolitan republishes selected articles from The Conversation USA with permission

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