length to depth ratio

简明释义

船长与船深比

英英释义

例句

1.The structural engineer calculated the length to depth ratio (长宽比) of the beam to ensure it would support the load effectively.

结构工程师计算了梁的长宽比 (length to depth ratio) 以确保它能够有效承受载荷。

2.In designing a swimming pool, the length to depth ratio (长宽比) is crucial for both aesthetics and safety.

在设计游泳池时，长宽比 (length to depth ratio) 对于美观和安全都至关重要。

3.The length to depth ratio (长宽比) of the river affects its flow dynamics and ecosystem.

河流的长宽比 (length to depth ratio) 影响其流动动态和生态系统。

4.The architect recommended a length to depth ratio (长宽比) of 3:1 for the new building to enhance its stability.

建筑师建议新建筑的长宽比 (length to depth ratio) 为3:1，以增强其稳定性。

5.For optimal performance, the length to depth ratio (长宽比) of the aircraft wing must be carefully calculated.

为了获得最佳性能，飞机机翼的长宽比 (length to depth ratio) 必须经过仔细计算。

作文

In the field of engineering and architecture, understanding various ratios is crucial for designing structures that are both functional and aesthetically pleasing. One such important ratio is the length to depth ratio, which plays a significant role in determining the stability and strength of beams and other structural elements. The length to depth ratio refers to the relationship between the length of a beam or structural element and its depth (or height). This ratio helps engineers assess how much load a structure can support without failing. A higher length to depth ratio typically indicates a more slender beam, which may be more susceptible to bending and buckling under heavy loads. Conversely, a lower length to depth ratio suggests a sturdier design that can better withstand forces. When designing bridges, for example, engineers must carefully consider the length to depth ratio of the supporting beams. If the ratio is too high, the beams may not provide adequate support, leading to potential safety hazards. On the other hand, if the ratio is too low, the beams may be unnecessarily heavy, resulting in increased material costs and a less efficient design. Therefore, finding the optimal length to depth ratio is essential for creating safe and cost-effective structures.In addition to structural applications, the length to depth ratio is also relevant in various fields such as hydrodynamics and aerodynamics. For instance, in the design of ships and submarines, the length to depth ratio affects how these vessels move through water. A well-calibrated length to depth ratio can enhance a vessel's speed and stability, leading to improved performance in various conditions.Moreover, this ratio is not limited to engineering; it can also be applied in art and design. In visual arts, the length to depth ratio can influence the perception of balance and proportion in a piece. Artists often manipulate this ratio to create compositions that draw the viewer’s eye and convey specific emotions or messages.Understanding the length to depth ratio is vital for professionals across multiple disciplines. It serves as a fundamental principle that underpins many aspects of design and functionality. By taking into account the implications of this ratio, engineers, architects, and artists alike can create works that are not only visually appealing but also structurally sound and efficient.In conclusion, the length to depth ratio is a critical concept that extends beyond mere numbers. It encapsulates the relationship between dimensions that can dictate the success of a project. Whether in constructing robust buildings, designing efficient vehicles, or creating captivating artworks, a thorough understanding of the length to depth ratio enables professionals to make informed decisions that enhance their work. As we continue to advance in technology and design, the importance of mastering such ratios will only grow, reinforcing their relevance in our ever-evolving world.

在工程和建筑领域，理解各种比例对于设计既实用又美观的结构至关重要。其中一个重要的比例是长度与深度比，它在确定梁和其他结构元素的稳定性和强度方面发挥着重要作用。长度与深度比指的是梁或结构元素的长度与其深度（或高度）之间的关系。这个比例帮助工程师评估结构在不失效的情况下能够承受多少负荷。较高的长度与深度比通常表示梁较为纤细，这可能使其在重载下更容易弯曲和失稳。相反，较低的长度与深度比则表明设计更坚固，可以更好地承受力。因此，找到最佳的长度与深度比对创建安全且具有成本效益的结构至关重要。例如，在设计桥梁时，工程师必须仔细考虑支撑梁的长度与深度比。如果比例过高，梁可能无法提供足够的支持，导致潜在的安全隐患。另一方面，如果比例过低，梁可能会不必要地沉重，从而导致材料成本增加和设计效率降低。因此，寻找最佳的长度与深度比对于创建安全且经济高效的结构至关重要。除了结构应用外，长度与深度比在水动力学和空气动力学等多个领域也具有相关性。例如，在船只和潜艇的设计中，长度与深度比影响这些船只在水中的运动。恰当的长度与深度比可以提高船只的速度和稳定性，从而在各种条件下改善性能。此外，这个比例不仅限于工程；它也可以应用于艺术和设计。在视觉艺术中，长度与深度比可以影响作品的平衡感和比例感。艺术家常常操控这个比例，以创造吸引观众眼球并传达特定情感或信息的构图。理解长度与深度比对于多个学科的专业人士至关重要。它作为一个基本原则，支撑着设计和功能的许多方面。通过考虑这个比例的影响，工程师、建筑师和艺术家能够创造出不仅在视觉上吸引人，而且在结构上坚固和高效的作品。总之，长度与深度比是一个关键概念，它超越了单纯的数字。它概括了决定项目成功的维度之间的关系。无论是在建造坚固的建筑、设计高效的车辆，还是创作引人入胜的艺术作品，透彻理解长度与深度比使专业人士能够做出明智的决策，从而提升他们的工作。随着我们在技术和设计上的不断进步，掌握这种比例的重要性只会增加，进一步强化它在我们不断发展的世界中的相关性。