decomposability

简明释义

英[/ˌdiː.kəmˈpoʊ.zə.bɪl.ɪ.ti/]美[/ˌdiː.kəmˈpoʊ.zə.bɪl.ɪ.ti/]

n. 分解性能，可分解性

英英释义

单词用法

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反义词

例句

1.Pulp-molding packaging products (pulp mold) are made of recycled trash paper, and used in cushion package and have the advantages of light mass, easy decomposability, good ventilation and so on.

纸浆模塑工业包装制品（简称纸模）主要用于缓冲包装，它以回收的废弃纸张为原材料，具有质轻、易降解、透气性好等优点。

2.Pulp-molding packaging products (pulp mold) are made of recycled trash paper, and used in cushion package and have the advantages of light mass, easy decomposability, good ventilation and so on.

纸浆模塑工业包装制品（简称纸模）主要用于缓冲包装，它以回收的废弃纸张为原材料，具有质轻、易降解、透气性好等优点。

3.The explosive decomposability of ethylene will lead to much large temperature gradient and great range thermal stresses response on thick wall of reactor.

由于乙烯爆炸性分解，在反应管壁厚上形成极陡的温度梯度和幅度很大的热应力。

4.In this paper, a decomposability theorem is presented and proved by differentiable manifolds theories.

本文提出并采用微分流形理论证明智能机器人体系结构可分解性定理。

5.TG analyse for foamed PP, received a new method of measure AC decomposability.

对发泡pp产品进行热重分析，提出了一种测量ac分解率的新方法。

6.This is incompatible with the decomposability criterion.

这与分解性标准不相容。

7.The decomposability of organic waste is crucial for effective composting.

有机废物的可分解性对于有效堆肥至关重要。

8.In software design, the decomposability of components allows for easier maintenance.

在软件设计中，组件的可分解性使维护变得更容易。

9.Researchers study the decomposability of materials to improve recycling processes.

研究人员研究材料的可分解性以改善回收过程。

10.The decomposability of a function in mathematics can simplify complex problems.

数学中函数的可分解性可以简化复杂问题。

11.Understanding the decomposability of ecosystems helps in conservation efforts.

了解生态系统的可分解性有助于保护工作。

作文

In the realm of science and mathematics, the concept of decomposability plays a crucial role in understanding complex systems. Decomposability refers to the ability of a system to be broken down into smaller, more manageable components or parts. This characteristic is particularly significant in fields such as computer science, biology, and engineering, where analyzing individual parts can lead to a better understanding of the whole system. For instance, in computer science, algorithms often rely on the decomposability of problems. A complex problem can be divided into simpler subproblems, making it easier to solve each part individually before combining the results. This method not only simplifies the problem-solving process but also enhances efficiency, as different parts can potentially be solved simultaneously. The principle of decomposability is fundamental in designing effective algorithms and data structures, as it allows programmers to tackle large-scale issues in a systematic way. Similarly, in biology, the decomposability of ecosystems is vital for understanding ecological interactions. Ecosystems consist of various organisms that interact with one another and their environment. By studying individual species and their roles within the ecosystem, scientists can gain insights into how energy flows, nutrients cycle, and populations change over time. The decomposability of biological systems helps researchers identify key species that may have a disproportionate impact on the health and stability of the ecosystem. In engineering, the concept of decomposability is applied in system design and analysis. Complex engineering systems, such as transportation networks or manufacturing processes, can be broken down into subsystems. Each subsystem can be analyzed independently, allowing engineers to optimize performance and identify potential failures. This approach not only streamlines the design process but also facilitates maintenance and upgrades, as individual components can be modified without overhauling the entire system. Moreover, the importance of decomposability extends beyond scientific fields; it is also relevant in everyday life. When faced with a daunting task, breaking it down into smaller, actionable steps can make it feel more manageable. For example, writing a research paper can seem overwhelming at first. However, by decomposing the task into stages—such as conducting research, outlining, drafting, and revising—one can approach the project with greater clarity and focus. In conclusion, decomposability is a powerful concept that transcends various disciplines. Whether in science, engineering, or everyday tasks, the ability to break down complex systems into simpler components enhances our understanding and ability to manage challenges. By embracing decomposability, we can develop more efficient solutions, foster innovation, and ultimately improve our problem-solving skills. Understanding this concept is essential for anyone looking to navigate the complexities of both academic and real-world scenarios effectively.

在科学和数学领域，decomposability（可分解性）的概念在理解复杂系统中发挥着至关重要的作用。Decomposability指的是将一个系统分解为更小、更易管理的组件或部分的能力。这一特征在计算机科学、生物学和工程等领域尤为重要，因为分析单个部分可以更好地理解整个系统。 例如，在计算机科学中，算法通常依赖于问题的decomposability。一个复杂的问题可以被分解为更简单的子问题，从而使每个部分更容易单独解决，然后再将结果结合起来。这种方法不仅简化了问题解决过程，还提高了效率，因为不同的部分可以同时解决。Decomposability原理在设计有效的算法和数据结构中是基础，因为它使程序员能够以系统的方式处理大规模问题。 同样，在生物学中，生态系统的decomposability对于理解生态相互作用至关重要。生态系统由各种生物组成，这些生物与彼此及其环境相互作用。通过研究个体物种及其在生态系统中的角色，科学家可以深入了解能量如何流动、养分如何循环以及种群如何随时间变化。生物系统的decomposability帮助研究人员识别出可能对生态系统的健康和稳定产生不成比例影响的关键物种。 在工程学中，decomposability的概念应用于系统设计和分析。复杂的工程系统，例如交通网络或制造过程，可以分解为子系统。每个子系统可以独立分析，使工程师能够优化性能并识别潜在故障。这种方法不仅简化了设计过程，还促进了维护和升级，因为可以在不彻底改造整个系统的情况下修改单个组件。 此外，decomposability的重要性超越了科学领域；它在日常生活中也相关。当面临一项艰巨的任务时，将其分解为更小、可操作的步骤可以使其感觉更易于管理。例如，写一篇研究论文起初可能显得令人不知所措。然而，通过将任务分解为几个阶段——例如进行研究、列提纲、草拟和修订——人们可以更清晰、更专注地处理项目。 总之，decomposability是一个强大的概念，跨越了各个学科。无论是在科学、工程还是日常任务中，将复杂系统分解为更简单的组件的能力增强了我们理解和管理挑战的能力。通过接受decomposability，我们可以开发出更高效的解决方案，促进创新，并最终改善我们的解决问题的能力。理解这一概念对于任何希望有效应对学术和现实世界复杂性的个人来说都是至关重要的。