wave force

简明释义

波浪力

英英释义

例句

1.Researchers are studying how wave force 波浪力 affects marine life along the shore.

研究人员正在研究波浪力 波浪力如何影响沿海的海洋生物。

2.The engineer calculated the wave force 波浪力 acting on the coastal structure to ensure its stability.

工程师计算了作用于沿海结构的波浪力 波浪力以确保其稳定性。

3.The design of the breakwater must account for the maximum wave force 波浪力 expected during a hurricane.

防波堤的设计必须考虑到飓风期间预期的最大波浪力 波浪力。

4.During the storm, the wave force 波浪力 was strong enough to damage several piers.

在暴风雨期间，波浪力 波浪力足够强大，以至于损坏了几座码头。

5.Engineers use models to simulate the wave force 波浪力 on different types of boats.

工程师使用模型来模拟不同类型船只上的波浪力 波浪力。

作文

The ocean is a powerful force of nature, and one of the most fascinating aspects of it is the concept of wave force. This term refers to the energy exerted by waves as they travel across the surface of the water. Understanding wave force is crucial for various fields such as marine engineering, coastal management, and environmental science. The dynamics of waves are influenced by several factors including wind speed, water depth, and the distance over which the wind blows. As waves approach the shore, their wave force can significantly impact coastal structures, erode beaches, and even shape the coastline itself.One of the primary contributors to wave force is the wind. When wind blows over the surface of the ocean, it transfers energy to the water, creating waves. The stronger the wind, the larger and more powerful the waves become. This energy transfer is not only a physical phenomenon but also a critical factor in understanding how waves interact with the environment. For instance, large storms can generate massive waves that carry immense wave force, capable of damaging ships, coastal buildings, and natural habitats.Moreover, wave force plays a significant role in coastal erosion. As waves crash against the shore, the energy they possess can wear away rocks and sand, leading to changes in the landscape. Coastal engineers must take into account the potential wave force when designing structures like seawalls and breakwaters to protect against erosion and flooding. These structures are specifically designed to absorb and dissipate the energy from incoming waves, reducing the impact of wave force on vulnerable areas.In addition to its destructive capabilities, wave force can also be harnessed for renewable energy. Wave energy converters are devices that capture the energy from ocean waves and convert it into electricity. This technology is still in its early stages compared to wind and solar energy, but it holds great promise for sustainable energy production. By understanding the mechanics of wave force, engineers can develop more efficient systems that leverage the power of the ocean.Furthermore, the study of wave force is essential for predicting and mitigating the effects of climate change. As sea levels rise and storm patterns shift, the behavior of ocean waves may change dramatically. Understanding how wave force interacts with these changes can help scientists and policymakers make informed decisions about coastal planning and disaster preparedness. By analyzing historical data and modeling future scenarios, researchers can better anticipate the impacts of increased wave force due to climate change.In conclusion, wave force is a vital concept that encompasses both the destructive and constructive powers of ocean waves. Its implications reach far beyond the shoreline, affecting marine ecosystems, human infrastructure, and energy production. By continuing to study and understand wave force, we can better prepare for the challenges posed by our dynamic oceans and work towards a sustainable future. The ocean's wave force is not just a natural phenomenon; it is a force that shapes our world in profound ways, reminding us of the intricate relationship between humanity and nature.

海洋是自然界的一种强大力量，其中一个最引人入胜的方面是“波浪力”的概念。这个术语指的是波浪在水面上移动时所施加的能量。理解“波浪力”对于海洋工程、沿海管理和环境科学等多个领域至关重要。波浪的动态受多种因素的影响，包括风速、水深以及风吹动的距离。当波浪接近海岸时，它们的“波浪力”可以显著影响沿海结构，侵蚀海滩，甚至塑造海岸线。“波浪力”的主要贡献者之一是风。当风吹过海洋表面时，它将能量转移到水中，形成波浪。风越强，波浪就越大，越强大。这种能量转移不仅仅是一个物理现象，也是理解波浪如何与环境相互作用的关键因素。例如，大型风暴可以产生巨大的波浪，这些波浪携带着巨大的“波浪力”，能够损坏船只、沿海建筑和自然栖息地。此外，“波浪力”在沿海侵蚀中也起着重要作用。当波浪冲击海岸时，它们所拥有的能量可以磨损岩石和沙子，导致地形变化。沿海工程师在设计防护结构（如海堤和防波堤）时，必须考虑潜在的“波浪力”，以保护免受侵蚀和洪水的影响。这些结构专门设计用于吸收和消散来自来潮波浪的能量，减少对脆弱区域的“波浪力”影响。除了其破坏能力外，“波浪力”也可以被利用于可再生能源。波浪能转换器是捕获海洋波浪能量并将其转化为电力的设备。这项技术仍处于早期阶段，相比于风能和太阳能，它具有很大的潜力。通过理解“波浪力”的机制，工程师可以开发出更高效的系统，以利用海洋的力量。此外，研究“波浪力”对于预测和减轻气候变化的影响至关重要。随着海平面上升和风暴模式变化，海洋波浪的行为可能会发生剧烈变化。理解“波浪力”如何与这些变化相互作用，可以帮助科学家和决策者在沿海规划和灾害准备方面做出明智的决定。通过分析历史数据和建模未来情景，研究人员可以更好地预测由于气候变化导致的“波浪力”增加的影响。总之，“波浪力”是一个重要的概念，涵盖了海洋波浪的破坏性和建设性力量。它的影响远远超出了海岸线，影响着海洋生态系统、人类基础设施和能源生产。通过继续研究和理解“波浪力”，我们可以更好地为动态海洋带来的挑战做好准备，并朝着可持续的未来努力。海洋的“波浪力”不仅仅是一种自然现象；它是塑造我们世界的力量，以深刻的方式提醒我们人类与自然之间错综复杂的关系。