wave height-length ratio

简明释义

波陡

英英释义

例句

1.Researchers found that a wave height-length ratio 波高与波长比 greater than 1/7 indicates potential for breaking waves.

研究人员发现，波高与波长比大于1/7可能表明波浪会破裂。

2.The wave height-length ratio 波高与波长比 is critical for determining the stability of a vessel in rough seas.

波高与波长比对于确定船只在恶劣海况下的稳定性至关重要。

3.A lower wave height-length ratio 波高与波长比 indicates calmer waters, making it safer for swimmers.

较低的波高与波长比表示水面较平静，使游泳者更安全。

4.The wave height-length ratio 波高与波长比 can influence the erosion rate of beaches.

波高与波长比可以影响海滩的侵蚀率。

5.In coastal engineering, understanding the wave height-length ratio 波高与波长比 helps in designing effective breakwaters.

在海岸工程中，理解波高与波长比有助于设计有效的防波堤。

作文

Understanding the concept of wave height-length ratio is crucial in various fields, including oceanography, civil engineering, and environmental science. The wave height-length ratio refers to the relationship between the height of a wave and its wavelength, which is the distance between two successive wave crests. This ratio plays a significant role in determining the behavior of waves as they propagate through different mediums, such as water or air. In oceanography, the wave height-length ratio is essential for predicting wave energy and understanding wave dynamics. For instance, when the ratio is high, it indicates that the waves are steep and can be more dangerous, especially during storms. Conversely, a low wave height-length ratio suggests that the waves are more gentle and less likely to cause damage. This information is vital for sailors, surfers, and coastal engineers who need to assess wave conditions for safety and operational purposes.Moreover, the wave height-length ratio can influence coastal erosion and sediment transport. Waves with a high ratio tend to have more energy concentrated at their crest, which can lead to increased erosion along shorelines. Understanding this ratio helps scientists and engineers design effective coastal defenses and manage beach erosion. For example, by analyzing the wave height-length ratio, they can determine the best locations for breakwaters or other structures intended to protect the coast from wave impact.In civil engineering, the wave height-length ratio is also a critical factor when designing offshore structures, such as oil rigs and wind turbines. Engineers must consider how waves will interact with these structures over time. A higher ratio may necessitate more robust designs to withstand the forces exerted by steep waves. On the other hand, structures in areas with lower ratios may require less reinforcement, allowing for more cost-effective designs.Additionally, the wave height-length ratio is important in environmental studies, particularly when assessing the impact of climate change on marine ecosystems. As global temperatures rise, changes in wave patterns and intensities are expected. By monitoring shifts in the wave height-length ratio, researchers can gain insights into how these changes affect coastal habitats and marine life. For instance, increased wave energy could disrupt breeding grounds for fish or damage coral reefs, leading to significant ecological consequences.In summary, the wave height-length ratio is a fundamental concept that impacts various disciplines, from oceanography to civil engineering and environmental science. By understanding this ratio, professionals can better predict wave behavior, design safer structures, and protect coastal ecosystems. As we continue to study our oceans and their dynamics, the importance of the wave height-length ratio will only grow, highlighting the need for ongoing research and innovation in this field.

理解wave height-length ratio（波高与波长比）这一概念在海洋学、土木工程和环境科学等多个领域至关重要。wave height-length ratio指的是波的高度与其波长之间的关系，波长是指两个相继波峰之间的距离。这个比率在确定波浪在不同介质（如水或空气）中传播时的行为方面起着重要作用。在海洋学中，wave height-length ratio对于预测波能和理解波动动力学至关重要。例如，当比率较高时，表明波浪陡峭，尤其在暴风雨期间可能更危险。相反，较低的wave height-length ratio表明波浪较为温和，不太可能造成损害。这些信息对于水手、冲浪者和沿海工程师来说至关重要，他们需要评估波浪条件以确保安全和操作。此外，wave height-length ratio还会影响沿海侵蚀和沉积物运输。高比率的波浪往往将更多能量集中在波峰上，从而导致沿海岸线的侵蚀加剧。理解这个比率有助于科学家和工程师设计有效的海岸防御措施，并管理沙滩侵蚀。例如，通过分析wave height-length ratio，他们可以确定最佳位置来建设防波堤或其他旨在保护海岸免受波浪冲击的结构。在土木工程中，wave height-length ratio也是设计海上结构（如石油平台和风力涡轮机）时的关键因素。工程师必须考虑波浪如何随着时间的推移与这些结构相互作用。较高的比率可能需要更坚固的设计，以承受陡峭波浪施加的力量。另一方面，位于低比率区域的结构可能需要较少的加固，从而允许更具成本效益的设计。此外，wave height-length ratio在环境研究中也很重要，特别是在评估气候变化对海洋生态系统的影响时。随着全球气温上升，预计波浪模式和强度会发生变化。通过监测wave height-length ratio的变化，研究人员可以深入了解这些变化如何影响沿海栖息地和海洋生物。例如，增加的波能可能会破坏鱼类的繁殖场或损害珊瑚礁，导致显著的生态后果。总之，wave height-length ratio是一个影响多个学科的基本概念，从海洋学到土木工程再到环境科学。通过理解这一比率，专业人士可以更好地预测波浪行为，设计更安全的结构，并保护沿海生态系统。随着我们继续研究海洋及其动态，wave height-length ratio的重要性只会增加，突显了在这一领域持续研究和创新的必要性。