megascopic
简明释义
英[ˌmeɡəˈskɒpɪk]美[ˌmeɡəˈskɑːpɪk]
adj. 放大的,放大了的;肉眼可见的;依照肉眼观察的
英英释义
Relating to or denoting objects that are large enough to be visible to the naked eye, as opposed to microscopic. | 与可用肉眼观察到的物体相关或表示的,区别于显微镜下可见的物体。 |
单词用法
巨观观察 | |
巨观特征 | |
巨观分析 | |
巨观尺度 | |
巨观结构 | |
巨观现象 |
同义词
反义词
| 微观的 | The details of the cell structure can only be seen under a microscopic lens. | 细胞结构的细节只能在显微镜下看到。 | |
| 亚原子的 | Subatomic particles are smaller than atoms and are studied in physics. | 亚原子粒子比原子更小,通常在物理学中研究。 |
例句
1.In the clastic reservoirs of west Sichuan Basin, sandstone and mudstone, tight sandstone and loose sandstone can be recognized by megascopic cuttings determination and drill time changes.
在川西地区碎屑岩地层中,砂岩与泥岩、致密砂岩与疏松砂岩可以通过肉眼岩屑鉴定或钻时变化进行识别。
2.In the clastic reservoirs of west Sichuan Basin, sandstone and mudstone, tight sandstone and loose sandstone can be recognized by megascopic cuttings determination and drill time changes.
在川西地区碎屑岩地层中,砂岩与泥岩、致密砂岩与疏松砂岩可以通过肉眼岩屑鉴定或钻时变化进行识别。
3.The megascopic 宏观的 view of the ecosystem revealed patterns that were not visible at smaller scales.
生态系统的宏观的视角揭示了在较小尺度上不可见的模式。
4.In his lecture, the professor explained how megascopic 宏观的 observations can lead to new scientific discoveries.
在他的讲座中,教授解释了如何通过宏观的观察来推动新的科学发现。
5.Using megascopic 宏观的 techniques, researchers were able to analyze the impact of climate change on large animal migrations.
利用宏观的技术,研究人员能够分析气候变化对大型动物迁徙的影响。
6.The artist's painting was a megascopic 宏观的 interpretation of urban life, capturing the essence of the city.
这位艺术家的画作是对城市生活的宏观的诠释,捕捉了城市的本质。
7.The research team used a megascopic 宏观的 approach to study the geological formations.
研究团队使用了一种宏观的方法来研究地质构造。
作文
In the fascinating world of science, the term megascopic (巨观的) plays a significant role in our understanding of various phenomena. Unlike microscopic observations, which require specialized instruments to view organisms or structures at a cellular level, megascopic refers to objects that are large enough to be seen with the naked eye. This distinction is crucial in fields such as biology, geology, and astronomy, where both microscopic and megascopic perspectives are essential for a comprehensive understanding of the universe.When we think about biology, for instance, we often focus on cells and microorganisms that are invisible without a microscope. However, the study of larger organisms, ecosystems, and their interactions falls under the megascopic category. Observing animals in their natural habitats, analyzing the structure of forests, and understanding the dynamics of food chains all require a megascopic approach. This perspective allows scientists to appreciate the complexity of life beyond the cellular level, revealing how various species coexist and interact within their environments.In geology, the megascopic examination of rock formations and land structures provides insights into the Earth's history. By studying mountains, valleys, and other geological features, geologists can infer the processes that shaped our planet over millions of years. For example, a megascopic analysis of sediment layers can reveal information about past climates, natural disasters, and the movement of tectonic plates. Understanding these large-scale processes is vital for predicting future geological events and managing natural resources.Astronomy also benefits from the megascopic viewpoint. While telescopes allow us to observe distant celestial bodies, the megascopic study of our solar system includes the observation of planets, moons, and asteroids. By examining their physical characteristics and movements, astronomers can gain insights into the formation of our solar system and the potential for life beyond Earth. The megascopic perspective is essential for understanding the vastness of space and our place within it.Moreover, the concept of megascopic extends beyond scientific disciplines and into everyday life. For instance, when we observe the architecture of buildings or the layout of cities, we engage in a megascopic analysis of human design and urban planning. This perspective allows us to appreciate the scale and functionality of our environments, influencing how we interact with them.In conclusion, the term megascopic (巨观的) encapsulates a critical aspect of our understanding of the world around us. By focusing on larger structures and phenomena, we can gain insights that complement our microscopic observations. Whether in biology, geology, astronomy, or everyday life, the megascopic perspective enriches our knowledge and appreciation of the complexity of existence. Embracing this duality of observation—both megascopic and microscopic—enables us to develop a more holistic understanding of the world, paving the way for further discoveries and advancements in various fields of study.
在科学的迷人世界中,术语megascopic(巨观的)在我们理解各种现象方面发挥着重要作用。与需要专门仪器才能观察细胞水平的生物体或结构的显微观察不同,megascopic指的是足够大到可以用肉眼看到的物体。这一区别在生物学、地质学和天文学等领域至关重要,在这些领域中,微观和megascopic的视角对于全面理解宇宙都是必不可少的。当我们想到生物学时,我们常常关注细胞和微生物,这些在没有显微镜的情况下是看不见的。然而,对较大生物、有机生态系统及其相互作用的研究属于megascopic范畴。在自然栖息地中观察动物、分析森林的结构以及理解食物链的动态都需要一种megascopic的方法。这种视角使科学家能够欣赏生命的复杂性,超越细胞层面,揭示各种物种在其环境中如何共存和相互作用。在地质学中,megascopic对岩石形成和地形特征的考察提供了对地球历史的见解。通过研究山脉、山谷和其他地质特征,地质学家可以推断出塑造我们星球数百万年的过程。例如,对沉积层的megascopic分析可以揭示过去气候、自然灾害和构造板块运动的信息。理解这些大规模过程对于预测未来的地质事件和管理自然资源至关重要。天文学也从megascopic视角中受益。虽然望远镜使我们能够观察遥远的天体,但对我们太阳系的megascopic研究包括对行星、卫星和小行星的观察。通过研究它们的物理特征和运动,天文学家可以获得有关我们太阳系形成和地球之外生命潜力的见解。megascopic视角对于理解太空的广阔性和我们在其中的位置至关重要。此外,megascopic的概念超越了科学学科,渗透到日常生活中。例如,当我们观察建筑物的结构或城市的布局时,我们就参与了一种megascopic的人类设计和城市规划分析。这种视角使我们能够欣赏我们环境的规模和功能,影响我们与之互动的方式。总之,术语megascopic(巨观的)概括了我们理解周围世界的一个关键方面。通过关注较大的结构和现象,我们可以获得补充微观观察的见解。无论是在生物学、地质学、天文学还是日常生活中,megascopic视角丰富了我们的知识和对存在复杂性的欣赏。接受这种观察的双重性——既有megascopic又有微观——使我们能够更全面地理解世界,为各个研究领域的进一步发现和进步铺平道路。
