area volume ratio

简明释义

面容比;

英英释义

例句

1.When designing buildings, architects consider the area volume ratio 表面积与体积比 to optimize energy efficiency.

在设计建筑时，建筑师考虑area volume ratio 表面积与体积比以优化能效。

2.The area volume ratio 表面积与体积比 is crucial in determining the thermal properties of materials.

在确定材料的热性能时，area volume ratio 表面积与体积比至关重要。

3.In chemical engineering, the area volume ratio 表面积与体积比 influences reaction rates in reactors.

在化学工程中，area volume ratio 表面积与体积比影响反应器中的反应速率。

4.In environmental science, the area volume ratio 表面积与体积比 of a pollutant can affect its dispersion in water bodies.

在环境科学中，污染物的area volume ratio 表面积与体积比可以影响其在水体中的扩散。

5.The area volume ratio 表面积与体积比 of a sphere is lower than that of a cube, which makes it more efficient for certain applications.

球体的area volume ratio 表面积与体积比低于立方体，这使得它在某些应用中更有效。

作文

The concept of area volume ratio is fundamental in various fields such as biology, architecture, and engineering. It refers to the relationship between the surface area of an object and its volume. Understanding this ratio can provide insights into how organisms grow, how buildings are designed for efficiency, and how materials behave under different conditions. In biology, for example, the area volume ratio plays a critical role in understanding how cells function. Cells are limited in size due to their need to exchange materials with their environment. As a cell grows, its volume increases at a faster rate than its surface area. This means that larger cells have a lower area volume ratio, which can limit their ability to absorb nutrients and expel waste. Consequently, many cells remain small or develop specialized structures to maximize their surface area, such as microvilli in intestinal cells. In architecture, the area volume ratio is essential for designing energy-efficient buildings. A building’s shape can significantly impact its energy consumption. For instance, a compact building with a low area volume ratio will lose less heat compared to a sprawling structure with a high ratio. Architects must consider this when designing homes and offices to ensure they maintain comfortable temperatures without excessive energy use. By optimizing the area volume ratio, designers can create spaces that are both functional and environmentally friendly.In engineering, particularly in the design of vehicles and machinery, the area volume ratio is crucial for performance. Engineers often strive to reduce the weight of components while maintaining strength and durability. Materials with a high area volume ratio can be beneficial as they allow for lightweight designs without sacrificing structural integrity. This principle is evident in the aerospace industry, where reducing weight can lead to significant fuel savings and improved performance.Moreover, the area volume ratio has implications in chemical engineering, especially in processes like catalysis. Catalysts with a high surface area relative to their volume can facilitate reactions more efficiently, leading to faster production rates and reduced costs. Understanding how to manipulate the area volume ratio of catalysts can lead to breakthroughs in industrial processes.In conclusion, the area volume ratio is a vital concept that impacts various disciplines. From the microscopic world of cells to the grand designs of buildings and the intricate workings of machinery, this ratio helps explain many natural and engineered phenomena. By mastering the implications of the area volume ratio, professionals across fields can innovate and improve their practices, leading to advancements in health, sustainability, and technology. Thus, whether one is studying biology, architecture, or engineering, a solid grasp of the area volume ratio is essential for success and innovation in the respective field.

“面积体积比”这一概念在生物学、建筑学和工程学等多个领域中都是基础性的重要概念。它指的是物体的表面积与其体积之间的关系。理解这一比率可以提供对生物体生长、建筑设计效率以及材料在不同条件下表现的深刻见解。例如，在生物学中，“面积体积比”在理解细胞功能方面起着关键作用。细胞因需要与环境交换物质而受到大小的限制。随着细胞的生长，其体积以比表面积更快的速度增加。这意味着较大的细胞具有较低的“面积体积比”，这可能限制了它们吸收营养和排出废物的能力。因此，许多细胞保持较小的尺寸或发展出专门的结构来最大化其表面积，例如肠道细胞中的微绒毛。在建筑学中，“面积体积比”对于设计节能建筑至关重要。建筑的形状可以显著影响其能耗。例如，具有低“面积体积比”的紧凑型建筑将比扩展结构（高比例）损失更少的热量。建筑师在设计住宅和办公室时必须考虑这一点，以确保它们在没有过度能耗的情况下保持舒适的温度。通过优化“面积体积比”，设计师可以创造出既实用又环保的空间。在工程学中，尤其是在车辆和机械的设计中，“面积体积比”对性能至关重要。工程师通常努力在保持强度和耐久性的同时减少组件的重量。具有高“面积体积比”的材料可以是有益的，因为它们允许轻量化设计而不牺牲结构完整性。这一原则在航空航天工业中尤为明显，因为减轻重量可以带来显著的燃料节省和改进的性能。此外，“面积体积比”在化学工程中也具有重要意义，特别是在催化过程如催化反应中。具有高表面积相对于其体积的催化剂可以更有效地促进反应，从而加快生产率并降低成本。理解如何操控催化剂的“面积体积比”可以导致工业过程中的突破。总之，“面积体积比”是一个重要的概念，影响着多个学科。从细胞的微观世界到建筑的宏伟设计，再到机械的复杂运作，这一比率帮助解释了许多自然和工程现象。通过掌握“面积体积比”的含义，各领域的专业人士可以创新和改善他们的实践，从而推动健康、可持续性和技术的进步。因此，无论是学习生物学、建筑学还是工程学，扎实掌握“面积体积比”对于在各自领域的成功和创新都是至关重要的。