attached cavity

简明释义

附着空泡

英英释义

例句

1.To prevent an attached cavity 附着龋齿, it's essential to maintain good oral hygiene.

为了防止出现attached cavity 附着龋齿，保持良好的口腔卫生至关重要。

2.The dentist explained that the filling was needed because of an attached cavity 附着龋齿 in my molar.

牙医解释说，我的磨牙需要填充是因为有一个attached cavity 附着龋齿。

3.During the inspection, we found an attached cavity 附着龋齿 on the left side of the tooth.

在检查过程中，我们发现牙齿左侧有一个attached cavity 附着龋齿。

4.The technician pointed out that the attached cavity 附着龋齿 could lead to further decay if not treated.

技术员指出，如果不治疗，attached cavity 附着龋齿可能会导致进一步的蛀牙。

5.The radiograph showed a clear image of the attached cavity 附着龋齿 beneath the enamel.

放射线照片清晰地显示了牙釉质下方的attached cavity 附着龋齿。

作文

In the realm of biology and anatomy, understanding the structure and function of various components within living organisms is crucial. One such component that has garnered attention in recent studies is the concept of an attached cavity (附属腔). This term refers to a space or void that is directly connected to another structure, often playing a significant role in the overall functionality of an organism. The study of attached cavities can provide insights into how different systems within an organism interact and support each other.For instance, in human anatomy, the body contains several attached cavities that serve various purposes. The thoracic cavity, which houses the lungs and heart, is connected to the abdominal cavity through the diaphragm. This connection allows for efficient respiratory function and pressure regulation within the chest and abdomen. Understanding the relationship between these attached cavities can help medical professionals diagnose and treat conditions that may arise from dysfunction in these areas.Furthermore, in the field of ecology, the concept of attached cavities can also be observed in the habitats of certain organisms. For example, many birds utilize tree cavities for nesting, which are often attached cavities formed by decay or damage to the tree. These cavities not only provide shelter for the birds but also create a micro-ecosystem that supports various other species. By studying these interactions, ecologists can better understand the importance of preserving natural habitats and the interconnectedness of life.In engineering and architecture, the idea of an attached cavity is equally significant. In construction, architects often design buildings with attached cavities for ventilation and insulation purposes. These cavities can enhance energy efficiency and improve indoor air quality. For example, a building might have an attached cavity between its outer walls that allows air to circulate, reducing the need for artificial heating and cooling. This application of attached cavities demonstrates how biological concepts can inspire innovative solutions in human-made environments.The implications of understanding attached cavities extend beyond just biology and engineering; they also touch upon the fields of art and design. Artists often explore the theme of space and form, including the use of attached cavities in their work. Sculptors may create pieces that incorporate voids or cavities to challenge perceptions of solidity and presence. This artistic exploration can lead to a deeper appreciation of how attached cavities influence our perception of space and structure.In conclusion, the concept of an attached cavity (附属腔) is multifaceted and relevant across various disciplines. Whether in biology, ecology, engineering, or art, attached cavities play a vital role in shaping our understanding of the world around us. By examining these connections and functions, we can gain valuable insights into the complexity of life and the systems that sustain it. As research continues to unfold, the significance of attached cavities will likely become even more apparent, highlighting the intricate relationships that exist within nature and human innovation.

在生物学和解剖学领域，理解生物体内各种组成部分的结构和功能至关重要。最近的研究中引起关注的一个组成部分是“附属腔”的概念。这个术语指的是一个直接连接到另一个结构的空间或空隙，通常在生物体的整体功能中发挥重要作用。对附属腔的研究可以提供有关生物体内不同系统如何相互作用和支持彼此的见解。例如，在人体解剖学中，身体包含几个附属腔，它们具有不同的目的。胸腔容纳肺部和心脏，通过膈肌与腹腔相连。这种连接使得胸部和腹部内的呼吸功能和压力调节变得高效。理解这些附属腔之间的关系可以帮助医疗专业人士诊断和治疗可能因这些区域功能障碍而产生的疾病。此外，在生态学领域，附属腔的概念也可以在某些生物的栖息地中观察到。例如，许多鸟类利用树木的腔体作为筑巢，这些腔体通常是由于树木的腐烂或损伤而形成的附属腔。这些腔体不仅为鸟类提供庇护所，还创造了一个支持其他物种的微生态系统。通过研究这些相互作用，生态学家可以更好地理解保护自然栖息地的重要性以及生命的相互联系。在工程和建筑领域，“附属腔”的概念同样重要。在建筑中，建筑师经常设计带有附属腔以便通风和绝缘的建筑。这些腔体可以提高能效并改善室内空气质量。例如，一栋建筑可能在外墙之间有一个附属腔，允许空气循环，从而减少对人工加热和冷却的需求。对附属腔的这种应用展示了生物概念如何激发人类环境中的创新解决方案。理解附属腔的意义超出了生物学和工程学；它们还涉及艺术和设计领域。艺术家们常常探索空间和形式的主题，包括在他们的作品中使用附属腔。雕塑家可能会创作包含空隙或腔体的作品，以挑战对实体和存在的感知。这种艺术探索可以加深我们对附属腔如何影响我们对空间和结构的感知的欣赏。总之，“附属腔”（附属腔）的概念是多方面的，并且在各个学科中都相关。无论是在生物学、生态学、工程学还是艺术中，附属腔在塑造我们对周围世界的理解方面发挥着重要作用。通过检查这些连接和功能，我们可以获得有关生命复杂性及其维持系统的宝贵见解。随着研究的不断展开，附属腔的重要性可能会变得更加明显，突显出自然与人类创新之间存在的复杂关系。