nomenclatures
简明释义
英[ˌnəʊ.mənˈkleɪ.tʃəz]美[ˌnoʊ.mənˈkleɪ.tʃərz]
n. 专门语,[语]术语(nomenclature 的复数形式);[语]术语表
英英释义
在特定领域或学科中使用的命名系统。 | |
The assigning of names to the various elements in a scientific classification. | 将名称分配给科学分类中各个元素的过程。 |
单词用法
科学命名法 | |
分类学命名法 | |
化学命名法 | |
建立命名法 | |
审查命名法 | |
标准命名法 |
同义词
| 术语 | 科学术语对初学者来说可能很复杂。 | ||
| 分类 | Different classifications of species help in understanding biodiversity. | 不同的物种分类有助于理解生物多样性。 | |
| 名称 | 化合物的名称必须准确。 | ||
| 标签 | 产品上的标签提供了必要的信息。 |
反义词
| 无政府状态 | The country fell into anarchy after the government collapsed. | 政府垮台后,国家陷入了无政府状态。 | |
| 混乱 | 由于缺乏组织,该项目陷入了混乱。 |
例句
1.To avoid weighted, some indexes with like meaning are categorized, integrated or changed to use new nomenclatures for definition.
另一方面为避免加权,将含义相似的指标归类,整合或换用新的术语定义。
2.To avoid weighted, some indexes with like meaning are categorized, integrated or changed to use new nomenclatures for definition.
另一方面为避免加权,将含义相似的指标归类,整合或换用新的术语定义。
3.And, if you look in the very high Numbers, you will see these nomenclatures.
如果你观察高序数的元素,你会发现这些术语。
4.The nomenclatures of the lateral nasal artery and the dorsal nasal artery were researched.
对鼻外侧动脉和鼻背动脉的命名问题提出了商榷。
5.The field of chemistry uses specific nomenclatures to name chemical compounds accurately.
化学领域使用特定的命名法来准确命名化合物。
6.Librarians must be familiar with the nomenclatures used in cataloging books.
图书馆员必须熟悉用于书籍编目中的命名法。
7.In software development, different programming languages have their own nomenclatures for functions and variables.
在软件开发中,不同的编程语言对函数和变量有各自的命名法。
8.The nomenclatures of various medical terms can often be confusing for students.
各种医学术语的命名法对于学生来说常常令人困惑。
9.In biology, different species have their own unique nomenclatures, which help scientists identify and classify them.
在生物学中,不同的物种有其独特的命名法,这帮助科学家识别和分类它们。
作文
In the realm of science and academia, the term nomenclatures (命名法) plays a crucial role in ensuring clarity and consistency. Nomenclature refers to the system of naming things, particularly in specialized fields such as biology, chemistry, and medicine. This systematic approach to naming allows researchers and professionals to communicate effectively without confusion. For instance, in biology, the nomenclatures (命名法) used for classifying organisms follow specific rules established by international codes. This ensures that each species has a unique name, which is recognized globally, thus avoiding misunderstandings that could arise from local names or colloquial terms.One of the most well-known systems of nomenclatures (命名法) in biology is the binomial nomenclature, developed by Carl Linnaeus in the 18th century. This method assigns each species a two-part Latin name: the first part indicates the genus, and the second part specifies the species. For example, the scientific name for humans is Homo sapiens. This standardized nomenclatures (命名法) not only simplifies communication among scientists but also reflects the evolutionary relationships between different organisms.In chemistry, nomenclatures (命名法) are equally important. The International Union of Pure and Applied Chemistry (IUPAC) has established systematic rules for naming chemical compounds. These rules help chemists understand the composition and structure of a substance just by looking at its name. For instance, the name 'sodium chloride' immediately conveys that it is a compound made of sodium and chlorine, commonly known as table salt. Without such a structured system of nomenclatures (命名法), the field of chemistry would be fraught with ambiguity, making collaboration and research more difficult.Moreover, nomenclatures (命名法) extend beyond the sciences into various other disciplines, including law, linguistics, and even art. In each of these fields, having a consistent naming system allows professionals to convey complex ideas succinctly and accurately. For example, in legal contexts, specific terminology is crucial for drafting documents and interpreting laws. A misunderstanding due to vague or inconsistent nomenclatures (命名法) could lead to significant legal consequences.Furthermore, the digital age has introduced new challenges and opportunities for nomenclatures (命名法). With the rapid development of technology, new terms and concepts are constantly emerging. This evolution necessitates the continuous updating of existing nomenclatures (命名法) to accommodate innovations. For instance, the rise of artificial intelligence has led to the creation of new terminology that must be systematically defined and categorized to ensure clear communication across different sectors.In conclusion, nomenclatures (命名法) are fundamental to various fields of study and practice. They provide a framework for naming and categorizing knowledge, facilitating effective communication and understanding. As we continue to advance in science, technology, and other areas, the importance of maintaining and updating our nomenclatures (命名法) cannot be overstated. By adhering to established naming conventions, we can foster collaboration, reduce misunderstandings, and promote the sharing of knowledge across disciplines and cultures.
在科学和学术领域,术语nomenclatures(命名法)发挥着至关重要的作用,确保清晰和一致性。命名法是指为事物命名的系统,特别是在生物学、化学和医学等专业领域。这种系统化的命名方法使研究人员和专业人士能够有效沟通,而不会产生混淆。例如,在生物学中,使用的nomenclatures(命名法)遵循国际法典制定的特定规则。这确保每个物种都有一个独特的名称,在全球范围内得到认可,从而避免因地方名称或口语术语而产生的误解。生物学中最著名的nomenclatures(命名法)之一是由卡尔·林奈在18世纪开发的双名法。这种方法为每个物种分配一个由两个部分组成的拉丁名称:第一部分表示属,第二部分指定种。例如,人类的科学名称是Homo sapiens。这种标准化的nomenclatures(命名法)不仅简化了科学家之间的交流,还反映了不同生物体之间的进化关系。在化学中,nomenclatures(命名法)同样重要。国际纯粹与应用化学联合会(IUPAC)建立了命名化合物的系统规则。这些规则帮助化学家仅通过查看名称来理解物质的组成和结构。例如,名称“氯化钠”立刻传达出它是由钠和氯组成的化合物,通常被称为食盐。如果没有这样一个结构化的nomenclatures(命名法),化学领域将充满模糊,使合作和研究变得更加困难。此外,nomenclatures(命名法)超越了科学领域,延伸到法律、语言学甚至艺术等各个学科。在这些领域中,拥有一个一致的命名系统使专业人士能够简洁而准确地传达复杂的想法。例如,在法律背景下,特定术语对于起草文件和解释法律至关重要。由于模糊或不一致的nomenclatures(命名法)而导致的误解可能会带来重大法律后果。此外,数字时代给nomenclatures(命名法)带来了新的挑战和机遇。随着技术的快速发展,新术语和概念不断出现。这一演变需要不断更新现有的nomenclatures(命名法),以适应创新。例如,人工智能的兴起导致了新术语的创造,这些术语必须系统地定义和分类,以确保在不同部门之间进行清晰沟通。总之,nomenclatures(命名法)是各个研究和实践领域的基础。它们为命名和分类知识提供了框架,促进了有效的沟通和理解。随着我们在科学、技术和其他领域的不断进步,维护和更新我们的nomenclatures(命名法)的重要性不容小觑。通过遵循既定的命名惯例,我们可以促进合作,减少误解,并推动跨学科和文化的知识共享。
