reducibility
简明释义
英[rɪˈdjuːsəˌbɪləti]美[rɪˈduːsəˌbɪləti]
n. [化学] 还原能力,[化学] 还原性;[数] 可约性
英英释义
The quality or state of being reducible; the capacity to be made smaller or simpler in form or structure. | 可简化性;能够在形式或结构上变得更小或更简单的能力。 |
单词用法
问题的可约性 | |
简化形式的可约性 | |
高可约性 | |
低可约性 | |
降低可约性 |
同义词
反义词
不可简化性 | The irreducibility of the problem makes it difficult to solve. | 这个问题的不可简化性使得解决它变得困难。 | |
复杂性 | The complexity of the system requires advanced knowledge to understand. | 系统的复杂性需要高级知识才能理解。 |
例句
1.Molecular orbital study was applied to investigate electroless deposition processes, focusing upon reducibility of reductants as well as the effect of catalytic activity of the metal surfaces.
分子轨道研究被应用于非电化学沉积中,主要用于研究还原剂的还原性能和金属表面的催化活性。
2.The ore-forming fluid had weak reducibility. Race elements of arsenopyrite and pyrite were reduced by ore-forming fluid with the evolution. There were relatively high LREE and low HREE.
毒砂、黄铁矿微量元素含量呈现出随着成矿流体从早期到晚期的演化而减少,并普遍亏损高场强元素,富集LREE的特征;
3.Chapter three is to take into consideration the theoretical discussion of refusal perception, production, interpretation and reducibility.
第三章从总体上对拒绝言语行为的感知、生产、阐释和归属进行理论探讨。
4.Then I want to know what is the nature of the concept of reducibility.
我想知道可简化型概念,的本质是什么。
5.During beer brewing, the transform and metabolism from methionine would produce lots of sulfur compounds, the distribution of which is mainly determined by yeast reducibility in fermentation.
在啤酒生产过程中,蛋氨酸的转化和代谢会产生许多影响啤酒风味的含硫化合物,这些化合物在啤酒中的分布水平主要取决于酵母在发酵过程中的还原能力。
6.Molecular orbital study was applied to investigate electroless deposition processes, focusing upon reducibility of reductants as well as the effect of catalytic activity of the metal surfaces.
分子轨道研究被应用于非电化学沉积中,主要用于研究还原剂的还原性能和金属表面的催化活性。
7.The study of algorithm efficiency often involves analyzing the reducibility of problems to simpler forms.
算法效率的研究通常涉及分析问题简化形式的可约性。
8.In computer science, understanding the reducibility of a problem can help in finding efficient solutions.
在计算机科学中,理解一个问题的可约性可以帮助找到高效的解决方案。
9.The reducibility of certain mathematical functions makes them easier to integrate.
某些数学函数的可约性使它们更容易被积分。
10.Researchers are investigating the reducibility of complex systems to improve their predictability.
研究人员正在调查复杂系统的可约性以提高其可预测性。
11.The concept of reducibility is crucial in the field of theoretical computer science.
在理论计算机科学领域,可约性的概念至关重要。
作文
In the realm of mathematics and computer science, the concept of reducibility plays a crucial role in understanding the complexity of problems. At its core, reducibility refers to the ability to transform one problem into another, often simpler, problem. This transformation can help in analyzing and solving complex issues by breaking them down into more manageable parts. For example, in computational theory, a problem is said to be reducible to another if an algorithm that solves the second problem can be used to solve the first. This relationship between problems is essential for classifying problems based on their difficulty and for developing efficient algorithms. The significance of reducibility extends beyond theoretical applications; it has practical implications in various fields such as cryptography, optimization, and artificial intelligence. In cryptography, understanding the reducibility of certain problems helps in creating secure systems. If a problem can be reduced to a known hard problem, then it is likely to be secure against attacks. Similarly, in optimization, recognizing the reducibility of a problem can lead to the development of heuristic methods that provide approximate solutions in a reasonable time frame. Moreover, the study of reducibility is not limited to mathematical problems. It also applies to everyday decision-making processes. When faced with a complex decision, individuals often break down the situation into smaller, more manageable components. By analyzing each component separately, one can simplify the overall decision-making process. This practical application of reducibility illustrates its relevance in our daily lives. Furthermore, the notion of reducibility is prevalent in the field of physics, particularly in the study of systems. Physicists often look for ways to reduce complex physical systems into simpler models that are easier to analyze. This process of simplification allows scientists to gain insights into the behavior of systems without getting bogged down by every minute detail. The ability to identify key variables and reduce a system to its essential components is a powerful tool in both theoretical and experimental physics. In conclusion, the concept of reducibility is fundamental across various disciplines. Its ability to simplify complex problems and facilitate understanding is invaluable in mathematics, computer science, decision-making, and physics. By leveraging reducibility, we can tackle challenges more effectively and develop innovative solutions. As we continue to explore new frontiers in science and technology, the principles of reducibility will undoubtedly remain a cornerstone of our analytical toolkit, enabling us to navigate the complexities of the modern world with greater ease and clarity.
在数学和计算机科学的领域中,可约性的概念在理解问题复杂性方面发挥着至关重要的作用。从本质上讲,可约性指的是将一个问题转化为另一个通常更简单的问题的能力。这种转化可以通过将复杂问题分解为更易管理的部分来帮助分析和解决。例如,在计算理论中,如果一个问题可以被简化为另一个问题,那么解决第二个问题的算法可以用于解决第一个问题。这种问题之间的关系对于根据难度对问题进行分类以及开发高效算法至关重要。 可约性的重要性不仅限于理论应用;它在密码学、优化和人工智能等多个领域具有实际意义。在密码学中,理解某些问题的可约性有助于创建安全系统。如果一个问题可以简化为一个已知的困难问题,那么它很可能会抵御攻击。同样,在优化中,识别一个问题的可约性可以导致开发出提供合理时间内近似解决方案的启发式方法。 此外,可约性的研究并不仅限于数学问题。它同样适用于日常决策过程。当面临复杂决策时,个体通常会将情况分解为较小、更易管理的组成部分。通过分别分析每个组成部分,人们可以简化整体决策过程。这种可约性的实际应用说明了它在我们日常生活中的相关性。 此外,可约性的概念在物理学领域也很普遍,特别是在系统研究中。物理学家通常寻找将复杂物理系统简化为更简单模型的方法,这些模型更易于分析。这种简化过程使科学家能够在不被每一个细节所困扰的情况下深入了解系统的行为。识别关键变量并将系统简化为其基本组成部分的能力是理论和实验物理学中一种强大的工具。 总之,可约性这一概念在各个学科中都是基础。它简化复杂问题和促进理解的能力在数学、计算机科学、决策制定和物理学中都是无价的。通过利用可约性,我们可以更有效地应对挑战并开发创新解决方案。随着我们继续探索科学和技术的新前沿,可约性的原则无疑将继续作为我们分析工具箱中的基石,使我们能够更轻松、更清晰地驾驭现代世界的复杂性。
文章标题:reducibility的意思是什么
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