Solids, Liquids and Gases… Is that it? – Part 2 (VERY INTERESTING!)

in physics •  7 years ago 

In part 1, we spoke about Plasma being the fourth state of matter. It occurs when a gas absorbs so much energy (by heating for example), such that electrons cannot stay in orbit around their nucleus in the atoms within this heated gas. Let’s work the other way. Can we cool a solid so much that it behaves in a way so different such that it becomes another state of matter?

What is Heat?

In simple terms, heat is kinetic energy; or just a measure of movement. The more vigorous the movement of particles, the higher the temperature; which is why gases are always hotter than liquids, which are always hotter than solids (at constant pressure).

The colder a substance gets, the less movement there is within its molecules.

Theoretically, this means that if we suck all this energy out of a substance – it cannot get any colder, right? Correct; and this temperature is known as Absolute Zero.

Absolute Zero

Absolute zero is equivalent to -273.15 Degrees Celsius or 0 Kelvin [1]. Unfortunately, at this temperature, no one knows what happens because we physically cannot cool something down to the point where the system has no energy; it is literally impossible. You can blame Quantum Physics for that – it states that there must be some sort of movement at all times.

Getting closer to Absolute Zero

Scientists are constantly trying to reach Absolute Zero all the time. In fact, we have got pretty darn close. You may be thinking; why are we trying to get to something we know we can’t reach? This is because something incredible happens when we reach below a millionth of a degree above Absolute Zero. That is less than 0.0000001 Kelvin, or -273.1499999 Degrees Celsius! At temperatures as extreme as that, you produce a new state of matter… the Bose-Einstein Condensate. Have we even reached these ridiculous temperatures? We sure have [2]!

The Fifth State of Matter: Bose-Einstein Condensate

A Bose-Einstein Condensate is a tough concept to comprehend, but I will do my best to explain. As a solid substance cools to temperatures just a whisker above Absolute Zero; the atoms in this substance start losing their identity. In other words, they stop knowing who they are, what they are and where they are. As a result, they begin to clump up and behave as one big super atom [3]. This super atom starts to behave and interact just like a wave - it is this wave that is a Bose-Einstein Condensate.

The coldest place in the entire Universe

When you think of the Universe, you think of it as huge, empty and cold. The darkest, coldest parts of the empty Space (in Space) have a temperature of 3 Kelvin, which is just 3 degrees above Absolute Zero. The Boomerang Nebula sinks to extreme temperatures of 1 Kelvin. This is the coldest natural occurring temperature in the Universe [4]. What does this mean? Recall that Bose-Einstein Condensates only occur at temperatures below 0.0000001 Kelvin; this means the coldest achieved temperature in the entire Universe is in our laboratories on Earth!

The Importance of a BEC

If this weird state of matter doesn’t occur anywhere else in the entire Universe, why are we spending so much time and money digging deeper and finding out more about it? Why do we care so much? What can it help us achieve? You would be surprised. Besides unlocking more mysteries about how the Universe started or help us finally understand Dark Matter/ Energy, there are quite a few ways it can help us innovate our current technology.

Lasers

You know what a laser is; they are everywhere. Barcodes of items are scanned by the cashier using lasers – CD players use lasers – even the Internet is made possible by lasers [5]. Lasers are waves of light, that oscillate in phase with each other. Remember when I said a BEC is a super atom that acts like a wave? What if we had lasers that emitted atoms instead of light? Well, it would revolutionize computing altogether. This includes Quantum computing, Quantum internet and even Quantum teleportation – where you literally can beam atoms with a laser across the room!

Here is a short video of the famous Dr. Michio Kaku discussing the innovation BECs can bring to the table in the future!


This animation below visually explains what a BEC is very well – check it out!

If you have any questions, leave them below and until next time, take care.

~ Mystifact


References:
[1]: https://www.britannica.com/science/absolute-zero
[2]: https://www.nasa.gov/vision/earth/technologies/biggest_chill.html
[3]: http://www.physlink.com/education/askexperts/ae292.cfm
[4]: https://science.nasa.gov/science-news/science-at-nasa/2014/30jan_coldspot
[5]: https://www.youtube.com/watch?v=9RDocoSWqPY

Please note; no copyright infringement is intended. All images used have been labelled for re-use on Google Images. If any artist or designer has any issues with any of the content used in this article, please don’t hesitate to contact me to correct the issue.

Relevant articles:
Solids, Liquids and Gases… Is that it? – Part 1
Will Teleportation Ever Be Possible?
Wonders of Quantum Physics: “What are Quantum Computers?”

Previous articles:
Can stress eventually KILL you?
Introducing the all new MystiFACT-or-FICTION Challenge!
Why Do We Get Nervous?

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Its really interesting that when things get cooled or heated to extream temperature.
Liquid helium is one of them which exhibit superfluidity at 4 K, amaze me so much!

Indeed it is :) Thank you for your comment.

Wow it's really amazing!

Yeah read about Bose-Einstein Condensate as fifth state of matter in Science books in lower classes. But didn't have any idea about that.

As in quantum physics we read the light and almost all matter show both particle and wave nature. But this BEC is simply wave, which is just incredible.

Yeah, this will really revolutionise the whole technology, and may be one of the important requirements for teleportation, quantum computing.

But that won't be possible until we get very near to Absolute Zero temp. which is very much difficult.

But still hope is alive, who knows probably in future we could easily get to that Absolute Zero. Thanks to advancing science and technology.

So we get two other states of matter which are not observable in natural environment: one is Plasma (at very high temp.) and another is BEC (at very low temp.).


Thanks @mystifact for regularly bringing awesome science article. I also write about science and often fall short of topics, and as a result have to write about those know old topics like "what is life?" and so on.

Please give me some tips how you get ideas about such awesome topics. :)

It would be impossible to reach Absolute Zero due to the third law of Thermodynamics. The Quantum nature of particles at a fundamental level shows us that there must be movement (due to the Uncertainty Principle if you are interested). All we can do is get closer and closer to it, but never achieve it.

Thanks for your comment and I shall have a look :)

Yeah, Absolute Zero is just a theory like attaining 100% efficiency and is practically impossible.

Hi, your article has been featured in the Physics-Trail Magazine N.3!
Please take a look and appreciate any comments. Thanks!

Thank you for featuring me! Much appreciated :)