fine scale

简明释义

精密标度

英英释义

例句

1.The city planners conducted a survey using a fine scale to assess local needs.

城市规划者使用细致的尺度进行调查，以评估当地需求。

2.The researchers used a fine scale to analyze the soil composition in detail.

研究人员使用了一个细致的尺度来详细分析土壤成分。

3.When creating maps, a fine scale is crucial for showing intricate details.

在制作地图时，细致的尺度对于显示复杂细节至关重要。

4.The artist worked on a fine scale, capturing every nuance of light and shadow.

艺术家在细致的尺度上创作，捕捉每一个光影的细微变化。

5.In marine biology, studying organisms at a fine scale helps understand their behaviors.

在海洋生物学中，以细致的尺度研究生物有助于理解它们的行为。

作文

In the realm of scientific research, the term fine scale refers to a detailed and precise level of measurement or observation. This concept is vital in various fields, including ecology, geography, and materials science. Understanding phenomena at a fine scale allows researchers to capture subtle variations and patterns that may be overlooked when only considering broader contexts.For example, in ecological studies, examining species distribution at a fine scale can reveal how environmental factors influence biodiversity. Researchers might analyze how different plant species coexist in a small area, taking into account microclimates, soil composition, and local interactions among species. This detailed approach provides insights that are crucial for conservation efforts, as it helps identify which areas are most vulnerable to changes in climate or human activity.Similarly, in geography, the use of fine scale mapping techniques enables urban planners to design cities that accommodate the needs of their inhabitants more effectively. By analyzing data at a fine scale, planners can assess traffic patterns, access to public services, and green spaces within neighborhoods. This information is essential for creating sustainable communities that promote well-being and environmental health.In materials science, understanding the properties of materials at a fine scale is critical for developing new technologies. Scientists investigate the microscopic structure of materials to uncover how they behave under different conditions. For instance, the strength of a metal can be influenced by its grain structure at a fine scale. By manipulating these structures, engineers can create stronger and lighter materials for use in various applications, from aerospace to construction.The importance of studying phenomena at a fine scale cannot be overstated. It often leads to breakthroughs that have significant implications for technology, conservation, and urban development. However, achieving this level of detail requires advanced tools and methodologies, such as high-resolution imaging, sophisticated modeling software, and extensive fieldwork.Moreover, the analysis of data at a fine scale can be computationally intensive. Researchers must be equipped with the necessary skills to handle large datasets and extract meaningful insights from them. This often involves interdisciplinary collaboration, as experts from different fields come together to tackle complex questions that require a nuanced understanding of both the micro and macro aspects of a problem.In conclusion, the concept of fine scale is integral to various scientific disciplines. It empowers researchers to delve deeper into the complexities of natural and engineered systems, leading to valuable discoveries and innovations. As our tools and techniques continue to advance, the ability to analyze and understand phenomena at a fine scale will undoubtedly play a pivotal role in shaping the future of research and technology.

在科学研究领域，术语fine scale指的是一种详细而精确的测量或观察水平。这个概念在生态学、地理学和材料科学等多个领域至关重要。在fine scale上理解现象使研究人员能够捕捉到微妙的变化和模式，这些变化和模式在仅考虑更广泛的背景时可能被忽视。例如，在生态研究中，以fine scale检查物种分布可以揭示环境因素如何影响生物多样性。研究人员可能会分析不同植物物种在小区域内如何共存，考虑微气候、土壤成分以及物种之间的局部相互作用。这种详细的方法提供了对保护工作至关重要的见解，因为它有助于识别哪些地区最容易受到气候变化或人类活动的影响。同样，在地理学中，使用fine scale制图技术使城市规划者能够更有效地设计满足居民需求的城市。通过在fine scale分析数据，规划者可以评估交通模式、公共服务的可达性以及社区内的绿地。这些信息对于创建可持续发展社区至关重要，促进居民的福祉和环境健康。在材料科学中，了解材料在fine scale上的特性对于开发新技术至关重要。科学家们研究材料的微观结构，以揭示其在不同条件下的行为。例如，金属的强度可能受到其在fine scale上的晶粒结构的影响。通过操控这些结构，工程师可以创造出更强大、更轻便的材料，用于航空航天到建筑等各种应用。在fine scale上研究现象的重要性不容小觑。它通常导致重大突破，对技术、保护和城市发展产生深远影响。然而，实现这种细节水平需要先进的工具和方法，例如高分辨率成像、复杂的建模软件和广泛的实地工作。此外，在fine scale上分析数据可能计算量巨大。研究人员必须具备处理大型数据集并从中提取有意义见解的必要技能。这通常涉及跨学科的合作，因为来自不同领域的专家聚集在一起，以解决需要对问题的微观和宏观方面进行细致理解的复杂问题。总之，fine scale的概念是各个科学学科不可或缺的一部分。它使研究人员能够深入探讨自然和工程系统的复杂性，从而带来有价值的发现和创新。随着我们的工具和技术的不断进步，在fine scale上分析和理解现象的能力无疑将在塑造未来的研究和技术中发挥关键作用。