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The zeroth law of thermodynamics is a mathematical law that describes the most fundamental laws of entropy, which refers to the order in which matter and energy interact to form energy, or heat. This law means that the entropy of an isolated system is a constant and that a system cannot be destroyed.
If we were to apply the zeroth law of thermodynamics to our world and our bodies, we could say that the world is a continuous state of matter, but the fact is that entropy is not constant in the same way that a constant speed would be. Therefore if the world is a continuous state of matter, the entropy of the entire universe is a constant.
The problem here is that the world isn’t just a continuous state of matter. It’s also an infinite state of matter. That’s because there are no limits on the amount of matter in any given volume. So if we were to apply the zeroth law of thermodynamics to our world, we could say that the universe is a finite state of matter. The problem is that this is like saying that the state of a ball is a continuous state of matter.
I think we all have experienced this paradox when we first began learning about the zeroth law of thermodynamics. We thought it was something that could only happen in a black hole, but we soon realized it was real. Our mind can’t actually grasp all the possible states of the universe at once, so we quickly become confused about which state we actually are in.
So how is the zeroth law of thermodynamics different from the second law of thermodynamics? The zeroth law is a statement that says, “Everything that is not here yet (which would be all of the stuff that is not in our universe) is in a state of absolute zero, as if it were already here.
The zeroth law is the same thing as a second law, but a second law is something you can actually check on a webpage. The zeroth law of thermodynamics is much simpler and seems to be saying, “Hey, we’re all going to die.” The zeroth law, on the other hand, is kind of like, “Hey, you might die today, but you’re all still alive.
A great example of this is the book The Law of Thermodynamics, by Charles Dickens. If you can imagine the power of the book, you’ll realize that this is a good introduction to thermodynamics. The book says, There is a Thermodynamic Law that is in your house, so what you’re doing is essentially the same as what happened to you when you were a kid. If there’s a thermostatic law, you’re doing it.
I love that this is an excerpt from the book. The law of thermodynamics is the most important law of physics. Every car that we drive is running on the gas of this law. But it is also the most important law of physics, and, like, every other law of physics, there are other laws of physics, but thermodynamics is the most important one.
There are other laws of physics that are important, but don’t involve thermodynamics. Like the fact that the laws of physics don’t work unless they’re set up right, or that the universe is infinite, and all these things are just meaningless because even if you set the world up the right way, it would still be infinite. So that’s the other law of physics that is important. But thermodynamics is just like that.
This law of physics is, of course, the law that tells us how things work in the world. And, of course, if you do it wrong, you will cause a chain reaction of heat and destruction in the universe. That is the zeroth law of thermodynamics.