entropically
简明释义
英[enˈtrɒpɪkli;enˈtrəʊpɪkli]美[enˈtrɑːpɪkli]
与熵有关,关于熵
英英释义
In a manner relating to entropy, often referring to the degree of disorder or randomness in a system. | 以与熵相关的方式,通常指系统中的无序或随机程度。 |
单词用法
从熵的角度来看 | |
熵稳定的 | |
熵控制过程 | |
熵增强的 |
同义词
| 无序的 | 随着能量的增加,系统变得无序。 | ||
| 混乱的 | 在混乱的环境中,可预测性降低。 | ||
| 随机地 | 气体中的粒子随机运动。 |
反义词
| 有序的 | 数据以有序的方式组织。 | ||
| 系统的 | 系统的方法可以带来更好的结果。 | ||
| 结构化的 | 该项目的结构旨在确保效率。 |
例句
1.And we know it's entropically driven.
我们知道它是由熵驱动的。
2.we'll look at entropically driven processes.
我们来看看由熵驱动的过程。
3.And again, it's still entropically driven.
同样的,它仍是熵驱动的。
4.we'll look at entropically driven processes.
我们来看看由熵驱动的过程。
5.The system tends to evolve towards a state that is more disordered, which can be described as becoming more entropically 熵增的 stable over time.
这个系统倾向于演变到一个更加无序的状态,这可以被描述为随着时间的推移变得更加熵增的稳定。
6.The entropically 熵增的 nature of mixing two different gases results in a higher overall entropy.
混合两种不同气体的熵增的特性导致整体熵增加。
7.This process is entropically 熵增的 driven, meaning it leads to increased disorder in the system.
这个过程是熵增的驱动的,这意味着它导致系统中的无序增加。
8.In thermodynamics, reactions that are entropically 熵增的 favorable will occur spontaneously at room temperature.
在热力学中,熵增的反应将在室温下自发发生。
9.When considering the distribution of molecules in a gas, we find that they spread out entropically 熵增地 to maximize entropy.
在考虑气体中分子分布时,我们发现它们以熵增地方式扩散,以最大化熵。
作文
In the study of thermodynamics, the concept of entropy is fundamental. It refers to the measure of disorder or randomness in a system. When we say that a process occurs entropically, we mean that it is driven by an increase in disorder. For instance, consider the melting of ice into water. At lower temperatures, the molecules in ice are arranged in a structured lattice, which is a low-entropy state. As the ice melts, the molecules gain energy and move freely, resulting in a higher-entropy state as they transition into liquid water. This example illustrates how natural processes tend to favor states of higher entropy, aligning with the second law of thermodynamics. In everyday life, we can observe entropically driven processes all around us. For example, when a room is left untidy, it tends to become more disordered over time. This is because systems naturally evolve towards states with higher entropy unless energy is input to maintain order. The act of cleaning a room requires effort and energy, which temporarily decreases the entropy of that space. However, without continued effort, the room will eventually return to its chaotic state. The implications of entropically driven processes extend beyond physical systems; they also apply to information and social dynamics. In information theory, for example, systems tend to become more disordered as information is lost or corrupted over time. Similarly, in social contexts, relationships may deteriorate or become less organized without active maintenance, reflecting an entropically influenced decline. Understanding the role of entropy helps us grasp why certain phenomena occur. For instance, when we mix different colored paints, the result is a uniform color that reflects a state of higher entropy. Initially, the separate colors represent a lower entropy state, but mixing them leads to greater disorder. This principle can be seen in various fields, from chemistry to ecology, where systems evolve towards equilibrium states characterized by maximum entropy. In conclusion, the term entropically encompasses the idea that many processes in nature are driven by a tendency towards increased disorder. Whether in physical, informational, or social systems, recognizing this tendency allows us to better understand and predict behaviors. The concept of entropy serves as a reminder of the natural inclination toward chaos, urging us to actively engage in maintaining order in our lives and environments. By acknowledging the entropically driven nature of the world, we can make more informed decisions about how we interact with our surroundings and manage our resources effectively.
在热力学研究中,熵的概念是基础。它指的是系统中无序或随机性的度量。当我们说一个过程是
