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The first law of thermodynamics is the law of conservation of energy. The second law is the law of entropy. What we’re talking about is the fact that energy cannot be created or destroyed but that energy must be conserved.
So when you think about what happened to Colt, you have to think about thermodynamics. Thermodynamics is a science that’s concerned about all sorts of things that can happen in the universe, but are often the least understood. There are three main types of thermodynamic systems. The first is the closed system (like a refrigerator or a car), the second is the open system (like a house), and the third is the system out of equilibrium (like a human body).
You can think about thermodynamics as the laws of the universe. Like there are three types of systems that are different from each other, and each type of system has a particular type of energy called heat. When you heat a refrigerator it heats the inside of the refrigerator. When you heat a car you need to apply some force to accelerate the car (like a motor). If you open a fridge and it starts to get warm, it is in the system because of the energy stored in the refrigerator.
Heat is a great energy resource, because it is free of energy from the outside world. You can make a refrigerator, like a car, heat the inside of it. But you need a certain amount of energy in order to make that fridge, because you can’t store it in the world outside of it. To make the fridge in one place, you need a certain amount of energy. To make the fridge in another place, you can have a certain amount of energy.
The law of conservation of energy states that the total amount of energy in a closed system (i.e. a refrigerator) can’t change, including the energy in the fridge itself. The only way to make the fridge cold again is to add energy into the fridge from outside. But to make the fridge hot again, you must remove energy from the fridge from outside.
This is a very interesting idea that works quite well. I’ve been thinking a lot about this idea for a while now. It’s a natural evolution of energy and I think the evolution process isn’t quite as difficult as I’m used to.
The reason this idea works is that if you can have the fridge stay cold, you can make it warm again. When you add energy from outside into the fridge, the energy in the fridge will cool it down. This is not a good idea, but it works. A fridge can stay cold because it can’t heat like a refrigerator.
The next time you have a microwave that stays hot, keep a note next to it. Keep your microwave cold. This is actually not a good idea, but it will work. You can’t make a microwave with cold energy. However if you can make the microwave hot enough to keep it cold you can make it warm again. You can re-heat a microwave by adding hot water into the microwave. This works.
The next time you have a microwave that stays hot, keep a note next to it. Keep your microwave cold. This is actually not a good idea, but it will work. You cant make a microwave with cold energy. However if you can make the microwave hot enough to keep it cold you can make it warm again. You can re-heat a microwave by adding hot water into the microwave. This works.
The next time we saw a microwave we were told that its properties were based on first-order principles, that it could be heated, cooled, or heated again. That is to say, you need to do work to cause it to change its properties. The first law of thermodynamics states that energy is always conserved. This means when you heat something up, you can’t get any more heat out of it.