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发表于 2016-10-7 00:54:02 | 只看该作者 回帖奖励 |倒序浏览 |阅读模式
This class provides a basic introduction requiring very little prior exact knowledge besides basic geometry. For a more involved dialogue of thermodynamics which includes detailed derivations of such laws from first guidelines, please see the class page .
Thermodynamics may be the study of temperature, chemical energy, and the properties of matter as a consequence sich zu entspannen of its atomic structure. In normal conversation, the words heat and temps are used interchangably. To 'warm' or 'heat' a little something up is to increase its temperature. One might state 'that fire has a lot of heat inside it'.
In physics on the other hand, the word heat has a really distinct meaning. Heat is usually a form of energy which is kept in matter by the constant jostling of its particles. In macroscopic thermodynamics, heat is often thought of as a massless, invisible chemical that can flow from one area to another, but it is very important to do not forget that this is NOT a real or precise description of heat, merely a resource to help you visualise how subject and the energy contained inside it behaves in the 'real world' as we see the idea. In reality, heat is an aftereffect of the movement of contaminants   whether they be atoms, ions, molecules, electrons, photons and also any kind of fictional 'magic' particle you could care to imagine. Particles move heat between one another by simply colliding with one another, and over time this could cause heat to flow around inside large bodies of topic where it allowed to. All these contrast with statistical specifics which by and large are quotations and inferred quantities strongly related the atoms within a material, in whose existence is not relevant to macroscopic thermodynamics. That is to say, the system's pressure, quantity and temperature are fixed at that point in time   we refer to this an equilibrium state. Only equilibrium states can be examined with basic thermodynamics   states exactly where these variables are not altering at this precise moment in time. If perhaps these properties are changing, it no longer makes any sense to say that the system incorporates a particular temperature, because electrical power will be moving around the system with techniques that cannot be precisely measured. In the same way with pressure and level; these cannot be precisely identified for a changing system for the reason that not every particle in the technique is 'aware' of their current value, in addition to certain areas of the system may possibly behave as though the system offers different pressure and quantity.
Therefore, if we want to geel en uiteindelijk bruin  63 study a system which we know is changing at some point, we must consider it to be a sequence of equilibrium states   we all pretend that instead of modifying smoothly, the system jumps immediately between very many slightly distinct equilibrium states as it goes from its initial state to its closing state.
The state diagram[edit]
It follows from your above statements that if a system has precisely defined thermodynamic issues, they can be plotted on a graph. An illustration, the P V plan, is shown below:
The particular Gas Laws[edit]
The gas laws and regulations are a set of laws which describe the relationship between thermodynamic heat (T), pressure (P) and volume (V) of gas. It is a loose collection of regulations developed between the late Renaissance period and early 19th century. First gas laws were:
Boyle's legislation   the product of the volume plus pressure of a fixed volume of an ideal gas is constant, given constant temperature
Charles's law   at constant pressure, the volume of a given mass of a natural een binnenlandse luchtvaartmaatschappij met BAe146 300 vliegtuigen gas increases or decreases with the same factor as its temp increases or decreases
Lgbt Lussac's law   the ratio involving the combining volumes of smells and the product, if gaseous, can be expressed in small total numbers
These were combined to form the combined essere un troll Vengo qui perché sono daccordo con Shmarya gas legislations:
The Ideal Gas[edit]
The Ideal Gas is an easy model for a gas produced from the gas laws above. The Ideal Gas Equation applies pressure, temperature and quantity in all possible combinations for your model gas which has the next properties, making it unlike the actual 'real' thing:
The particles in the gas have no size
The particles in the gasoline do not interact   that is, they can't 'bounce off' one another, only the walls in the container, and do not exert just about any forces on one another
  
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