That is false. The two are not directly related.
In the second law of thermodynamics, heat is converted and a good portion of it is lost.
What you describe is actually a consequence of the FIRST law of thermodynamics.
yes it is false
....apex
True, that is how a heat pump works.
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False
The First Law of Thermodynamics is the Law of Conservation of Energy. There is a quantity, called energy, which does not change (in a closed system). There are several types of energy, and it is possible to convert from one type of energy to another; but never will the total energy change.
The first law of thermodynamics is also called the law of conservation of energy.it may be stated as: 1st Statement: in this universe energy can neither be created nor destroyed though it may change from one form to another.
The total energy of course won't change - you won't "gain" or "lose" energy (First Law of Thermodynamics). However, note that you are basically converting useful energy into unusable energy (Second Law of Thermodynamics).
The second law of thermodynamics, generally stated, is that the entropy of an isolated system always increases in any natural process where change occurs. In a system at equilibrium, of course, the entropy remains constant.
That depends on what you mean by "cold" system. Entropy in any system can do one of three things: increase, decrease, or remain constant. If the system is closed, then entropy will only ever increase. If the system is open, entropy within it can do any of the three, provided there is a corresponding change in entropy outside the system (energy must come from or go to somewhere to effect an entropy change). The absolute amount of energy in the system makes no difference to the entropy of it. It is whether you have an open or closed system that counts.
The First Law of Thermodynamics is the Law of Conservation of Energy. There is a quantity, called energy, which does not change (in a closed system). There are several types of energy, and it is possible to convert from one type of energy to another; but never will the total energy change.
a positive change is an increase in potential energy.
Law of Thermodynamics
No, it would mean completely changing the mobo and everything connected to it and its just not possible.
Whats "this"? If "this" is what I think it is then you are having a problem with entropy change. What you need to consider is the entropy change of the surroundings as well which you of course should know because you know how much energy is being exchanged with the surroundings.
Physical change because no new substance is created.
Yes. Nothing remains the same for long (it is one of the consequences of the laws of thermodynamics).
the second law of thermodynamics states that systems tend to change in a way that increases the disorder.
For thermal energy, thermodynamics. For energy of movement, mechanics.
According to the first law of thermodynamics energy can neither be created nor be destroyed and any change in energy of a system is accounted for by work done. The work-energy relationship is the foundation on which all engines and motors operate, including the human engine. Energy gets converted into other forms of energy or it gets used to do work.
I think you mean "thermodynamics" -- which is the study of heat and how it changes. Literally, thermo means "heat" and dynamics means motion -- so thermodynamics literally means "heat motion." You can't literally see heat move so thermodynamics is really the study of how heat can change into energy and can generate power.
Change it as quick as possible, and have plenty of rags on you, or crack the lines and just let the lines completely drain out into a bucket.