subclassify

简明释义

[/ˌsʌbˈklæsɪfaɪ/][/ˌsʌbˈklæsɪfaɪ/]

vt. 将……归入亚纲

第 三 人 称 单 数 s u b c l a s s i f i e s

现 在 分 词 s u b c l a s s i f y i n g

过 去 式 s u b c l a s s i f i e d

过 去 分 词 s u b c l a s s i f i e d

英英释义

To classify something into a more specific category or subgroup within a broader classification.

将某物归类为更具体的类别或子组,在更广泛的分类中。

单词用法

同义词

categorize

分类

We need to categorize the data for better analysis.

我们需要对数据进行分类以便更好地分析。

classify

归类

The research team will classify the samples based on their characteristics.

研究小组将根据样本的特征进行归类。

subdivide

细分

The species can be subdivided into several distinct groups.

这些物种可以细分为几个不同的群体。

反义词

generalize

概括

It's important to generalize findings when analyzing data.

在分析数据时,概括发现是很重要的。

categorize broadly

广泛分类

We should categorize broadly to include all relevant factors.

我们应该广泛分类,以包含所有相关因素。

例句

1.To better understand customer preferences, we should subclassify 对...进行子分类 our survey results by age and location.

为了更好地理解客户偏好,我们应该按年龄和位置对调查结果进行子分类。

2.In our research, we need to subclassify 对...进行子分类 the data into more specific categories.

在我们的研究中,我们需要将数据进行更具体的分类。

3.The software allows users to subclassify 对...进行子分类 their files into folders for easier access.

该软件允许用户将文件进行子分类,以便于访问。

4.In the library, books are subclassify 对...进行子分类 according to their genres.

在图书馆,书籍根据其类型进行子分类。

5.The biologist decided to subclassify 对...进行子分类 the species based on their genetic traits.

生物学家决定根据遗传特征对物种进行子分类。

作文

In the field of biology, organisms are often categorized into various groups based on their characteristics. This classification process is essential for scientists to understand the relationships between different species. Within this broad classification, scientists may choose to subclassify organisms into more specific categories. For example, while all mammals belong to the same class, they can be subclassified into orders such as carnivores, herbivores, and omnivores. This level of detail allows researchers to study specific traits and behaviors in a more focused manner.The importance of subclassifying organisms extends beyond mere academic interest. It has practical implications in conservation efforts, where understanding the particular needs of a subclass of species can inform strategies to protect them from extinction. For instance, if a certain group of amphibians is subclassified as being particularly vulnerable to climate change, conservationists can prioritize their habitats and implement protective measures.Another area where subclassifying is critical is in the medical field. Diseases can be classified into various types based on their symptoms, causes, and affected populations. Within these classifications, doctors may subclassify diseases further to tailor treatments more effectively. For example, diabetes can be subclassified into Type 1 and Type 2, each requiring different management approaches. This detailed classification helps healthcare providers deliver personalized care that addresses the unique needs of each patient.Moreover, in the realm of education, subclassifying students based on their learning styles or abilities can enhance teaching methods. Educators can subclassify students into groups such as visual learners, auditory learners, or kinesthetic learners. By recognizing these differences, teachers can create customized lesson plans that cater to the diverse needs of their students, ultimately leading to better educational outcomes.In technology, particularly in software development, subclassifying user needs can lead to more user-friendly products. Developers often subclassify users based on their technical proficiency, which informs the design and functionality of applications. For instance, an app might have a basic mode for novice users and an advanced mode for experienced users, ensuring that both groups find the app useful and accessible.In conclusion, the act of subclassifying is a powerful tool across various fields. Whether in biology, medicine, education, or technology, subclassifying allows for a deeper understanding of complex systems and leads to more effective solutions. As we continue to explore the intricacies of our world, the ability to subclassify will remain a vital skill, enabling us to navigate and address the challenges we face in a nuanced and informed manner.

在生物学领域,生物通常根据其特征被分类。这个分类过程对于科学家理解不同物种之间的关系至关重要。在这种广泛的分类中,科学家可能会选择对生物进行子分类,以便更具体地划分。例如,虽然所有哺乳动物属于同一个类,但它们可以被子分类为食肉类、食草类和杂食类。这种细节级别使研究人员能够以更专注的方式研究特定的特征和行为。子分类生物的重要性超出了单纯的学术兴趣。它在保护工作中具有实际意义,了解特定子类物种的特殊需求可以为保护它们免于灭绝提供信息。例如,如果某一组两栖动物被子分类为特别容易受到气候变化影响,那么保护者可以优先考虑它们的栖息地并实施保护措施。另一个子分类至关重要的领域是医学。疾病可以基于其症状、原因和受影响的人群被分类。医生可能会进一步子分类疾病,以便更有效地调整治疗方法。例如,糖尿病可以被子分类为1型和2型,每种类型需要不同的管理方法。这种详细的分类帮助医疗提供者提供个性化的护理,以满足每位患者的独特需求。此外,在教育领域,根据学生的学习风格或能力进行子分类可以增强教学方法。教育工作者可以将学生子分类为视觉学习者、听觉学习者或动手学习者。通过认识到这些差异,教师可以创建定制的课程计划,以满足学生的多样化需求,最终导致更好的教育成果。在技术领域,特别是在软件开发中,子分类用户需求可以导致更用户友好的产品。开发人员经常根据用户的技术熟练程度对用户进行子分类,这影响了应用程序的设计和功能。例如,一个应用程序可能为新手用户提供基本模式,为经验丰富的用户提供高级模式,从而确保两个群体都能找到该应用程序有用且易于使用。总之,子分类的行为在各个领域都是一种强有力的工具。无论是在生物学、医学、教育还是技术领域,子分类都能让我们更深入地理解复杂系统,并导致更有效的解决方案。随着我们继续探索这个世界的复杂性,子分类的能力将始终是一项重要技能,使我们能够以细致入微和明智的方式应对所面临的挑战。