mean width ratio

简明释义

平均宽度比

英英释义

例句

1.The mean width ratio 平均宽度比 of the new product line was analyzed to optimize production efficiency.

新产品线的mean width ratio 平均宽度比被分析以优化生产效率。

2.The engineer calculated the mean width ratio 平均宽度比 of the bridge to ensure its structural integrity.

工程师计算了桥梁的mean width ratio 平均宽度比以确保其结构完整性。

3.To compare the performance of different materials, we measured the mean width ratio 平均宽度比 of each sample.

为了比较不同材料的性能，我们测量了每个样本的mean width ratio 平均宽度比。

4.The mean width ratio 平均宽度比 is crucial in hydraulic engineering for predicting water flow behavior.

在水利工程中，mean width ratio 平均宽度比对于预测水流行为至关重要。

5.In our study, the mean width ratio 平均宽度比 was found to be a significant factor in determining the flow rate of the river.

在我们的研究中，mean width ratio 平均宽度比被发现是决定河流流速的重要因素。

作文

In the field of engineering and design, understanding various metrics is crucial for creating effective structures. One such important metric is the mean width ratio, which plays a significant role in assessing the dimensions and proportions of an object or structure. The mean width ratio is defined as the average width of an object divided by its length. This ratio provides valuable insights into the overall shape and stability of the structure. For instance, in the design of bridges, the mean width ratio can help engineers determine the optimal width necessary to support the expected load while maintaining aesthetic appeal. The significance of the mean width ratio extends beyond mere structural integrity. It also influences the functionality of various designs. In product design, for example, the mean width ratio can affect how comfortable a user feels when interacting with a product. A well-balanced mean width ratio ensures that the product is not only visually appealing but also ergonomically designed for ease of use. Designers often analyze this ratio during the prototyping phase to make necessary adjustments before final production.Moreover, the mean width ratio can be a critical factor in environmental studies, particularly in analyzing habitats. In ecological research, scientists may use the mean width ratio of riverbanks to understand how land use affects aquatic ecosystems. A higher mean width ratio might indicate a healthier ecosystem, as it suggests more stable banks that can support diverse plant and animal life.In architecture, the mean width ratio is equally important. Architects consider this ratio when designing buildings to ensure that they are not only functional but also aesthetically pleasing. A balanced mean width ratio can contribute to a building's visual harmony within its environment. For example, a skyscraper with an appropriate mean width ratio will appear more stable and attractive compared to one that is overly narrow or wide.The application of the mean width ratio is not limited to engineering and design; it also finds relevance in various scientific fields. In biology, researchers might study the mean width ratio of certain organisms to understand their adaptations to different environments. For instance, the mean width ratio of a fish species can provide insights into its swimming efficiency and predatory strategies.In conclusion, the mean width ratio is a multifaceted metric that serves as a vital tool across various disciplines. Whether in engineering, design, ecology, or biology, understanding and applying the mean width ratio can lead to better outcomes, improved designs, and enhanced functionality. As professionals continue to explore and innovate, the importance of this ratio will undoubtedly remain a key consideration in their work, ensuring that structures and products are not only effective but also harmonious with their surroundings.

在工程和设计领域，理解各种指标对于创造有效的结构至关重要。其中一个重要的指标是平均宽度比，它在评估物体或结构的尺寸和比例方面发挥着重要作用。平均宽度比被定义为物体的平均宽度除以其长度。这个比率提供了关于结构整体形状和稳定性的宝贵见解。例如，在桥梁设计中，平均宽度比可以帮助工程师确定支撑预期负载所需的最佳宽度，同时保持美学吸引力。平均宽度比的重要性不仅仅体现在结构完整性上。它还影响各种设计的功能性。例如，在产品设计中，平均宽度比可能会影响用户在与产品互动时的舒适感。良好的平均宽度比确保产品不仅在视觉上吸引人，而且在使用时符合人体工程学。设计师通常在原型阶段分析这个比率，以便在最终生产之前进行必要的调整。此外，平均宽度比在环境研究中也可能是一个关键因素，特别是在分析栖息地时。在生态研究中，科学家可能会使用河岸的平均宽度比来了解土地使用如何影响水生生态系统。较高的平均宽度比可能表明生态系统更健康，因为它暗示着更稳定的河岸能够支持多样的植物和动物生命。在建筑学中，平均宽度比同样重要。建筑师在设计建筑时考虑这个比率，以确保建筑不仅功能齐全，而且在美学上令人愉悦。平衡的平均宽度比可以为建筑在其环境中的视觉和谐做出贡献。例如，具有适当平均宽度比的摩天大楼将显得更加稳定和吸引人，而不是过于狭窄或宽广。平均宽度比的应用并不限于工程和设计；它在各种科学领域也有相关性。在生物学中，研究人员可能会研究某些生物的平均宽度比以了解它们对不同环境的适应。例如，某种鱼类的平均宽度比可以提供关于其游泳效率和捕食策略的见解。总之，平均宽度比是一个多面向的指标，作为各个学科的重要工具。无论是在工程、设计、生态还是生物学中，理解和应用平均宽度比都能带来更好的结果、改善的设计和增强的功能性。随着专业人士继续探索和创新，这个比率的重要性无疑将继续成为他们工作中的关键考虑因素，确保结构和产品不仅有效，而且与周围环境和谐共存。