geometrical efficiency

简明释义

几何效率

英英释义

例句

1.Manufacturers are always looking for ways to increase geometrical efficiency in their production processes.

制造商总是在寻找提高生产过程中几何效率的方法。

2.The architect emphasized the importance of geometrical efficiency in the design of the new building to maximize space usage.

建筑师强调在新建筑设计中几何效率的重要性，以最大化空间利用。

3.In engineering, achieving geometrical efficiency can lead to lighter structures without compromising strength.

在工程学中，实现几何效率可以使结构更轻而不影响强度。

4.The team used advanced software to analyze the geometrical efficiency of the proposed vehicle design.

团队使用先进的软件分析所提议的车辆设计的几何效率。

5.The study focused on improving the geometrical efficiency of solar panels to enhance energy capture.

研究集中在提高太阳能电池板的几何效率以增强能量捕获。

作文

In the realm of design and architecture, the concept of geometrical efficiency plays a pivotal role in determining the effectiveness and functionality of a structure. 几何效率 refers to the optimal use of space and materials in a way that maximizes both aesthetic appeal and structural integrity. This principle is not only crucial for architects and engineers but also serves as an inspiration for various fields such as product design, urban planning, and even nature itself.When we consider a building, for instance, its geometrical efficiency can be assessed by examining the ratio of usable space to the total volume of the structure. A well-designed building will utilize its dimensions to create a spacious environment while minimizing waste. This is particularly important in urban areas where land is limited and expensive. The more efficient a building is geometrically, the more functional it becomes, allowing for better living conditions and a more sustainable approach to urban development. Moreover, geometrical efficiency can also be observed in the design of furniture and household items. Take, for example, a coffee table that is designed with a sleek, angular shape. Its 几何效率 lies not only in its visual appeal but also in its ability to fit snugly into small living spaces without sacrificing usability. By maximizing surface area and minimizing bulk, designers can create products that are both practical and stylish.In nature, geometrical efficiency is evident in the way organisms have evolved over time. For instance, the streamlined bodies of fish reduce water resistance, allowing them to swim more efficiently. Similarly, the hexagonal structure of honeycombs exemplifies how bees utilize 几何效率 to create strong yet lightweight structures for storing honey. These natural examples illustrate that the principles of geometrical efficiency are not merely human constructs but are deeply rooted in the biological world.Furthermore, the application of geometrical efficiency extends to the field of mathematics and physics, where it aids in solving complex problems related to optimization. Engineers often rely on geometric principles to design components that require minimal material while maintaining maximum strength. This is particularly relevant in industries such as aerospace, where every gram counts. By employing 几何效率 in their designs, engineers can create lighter and more fuel-efficient aircraft, which ultimately benefits the environment by reducing carbon emissions.In conclusion, the significance of geometrical efficiency cannot be overstated. Whether in architecture, product design, or nature, the principles of 几何效率 guide us toward creating more functional, sustainable, and aesthetically pleasing solutions. As we move forward in our endeavors, embracing these concepts will not only enhance our designs but also contribute to a more efficient and harmonious world. By understanding and applying geometrical efficiency, we can strive for excellence in every aspect of our lives, ensuring that we make the most of the resources available to us while respecting the environment around us.

在设计和建筑领域，几何效率的概念在确定结构的有效性和功能性方面发挥着关键作用。geometrical efficiency指的是以最大化美学吸引力和结构完整性的方式，最佳利用空间和材料。这一原则不仅对建筑师和工程师至关重要，而且还为产品设计、城市规划甚至自然界等多个领域提供了灵感。当我们考虑一个建筑时，其几何效率可以通过可用空间与结构总体积的比率来评估。设计良好的建筑将利用其尺寸创造一个宽敞的环境，同时最小化浪费。这在土地有限且昂贵的城市地区尤为重要。建筑的几何效率越高，其功能性就越强，从而改善居住条件，并为城市发展的可持续方法提供更好的支持。此外，几何效率也可以在家具和家居用品的设计中观察到。例如，一张设计成流线型角度形状的咖啡桌，其geometrical efficiency不仅体现在视觉吸引力上，还体现在它能够恰当地适应小型居住空间，而不牺牲实用性。通过最大化表面积和最小化体积，设计师可以创造出既实用又时尚的产品。在自然界中，几何效率在生物体的进化过程中显而易见。例如，鱼类的流线型身体减少了水阻，使它们游泳更加高效。同样，蜂巢的六边形结构则体现了蜜蜂如何利用geometrical efficiency来创建强大而轻便的存储结构。这些自然实例表明，几何效率的原则不仅是人类构造的，也是深深植根于生物世界中的。此外，geometrical efficiency的应用还扩展到数学和物理领域，帮助解决与优化相关的复杂问题。工程师通常依靠几何原理设计需要最小材料同时保持最大强度的组件。这在航空航天等行业尤为相关，因为每克都至关重要。通过在设计中运用几何效率，工程师可以创造出更轻、更省油的飞机，最终通过减少碳排放使环境受益。总之，geometrical efficiency的重要性不容小觑。无论是在建筑、产品设计还是自然界，几何效率的原则引导我们创造出更具功能性、可持续性和美观的解决方案。随着我们在各自事业中的前进，拥抱这些概念不仅会提升我们的设计质量，还将有助于实现一个更高效、和谐的世界。通过理解和应用geometrical efficiency，我们可以在生活的每个方面追求卓越，确保充分利用可用资源，同时尊重我们周围的环境。