sea pressure

简明释义

海水压力

英英释义

例句

1.Engineers need to account for sea pressure 海水压力 when designing underwater pipelines.

工程师在设计水下管道时需要考虑到海水压力 海水压力。

2.The submersible was designed to withstand extreme sea pressure 海水压力 at depths of over 10,000 meters.

这台潜水器被设计成能够承受超过10,000米深处的极端海水压力 海水压力。

3.Scientists measure sea pressure 海水压力 to understand ocean currents and their impact on climate.

科学家测量海水压力 海水压力以了解洋流及其对气候的影响。

4.As you descend underwater, you will feel the increase in sea pressure 海水压力 on your body.

当你向水下下降时，你会感受到身体上海水压力 海水压力的增加。

5.Deep-sea divers must be trained to handle the effects of sea pressure 海水压力 when they go below a certain depth.

深海潜水员必须接受训练，以应对在达到一定深度时的海水压力 海水压力。

作文

The ocean is a vast and mysterious body of water that covers more than 70% of the Earth's surface. Beneath its waves lies a world that is both fascinating and intimidating, governed by various physical forces. One of the most significant factors affecting life in the ocean is the concept of sea pressure, which refers to the pressure exerted by the weight of the water above any given point in the ocean. As we dive deeper into the depths of the sea, the sea pressure increases dramatically due to the immense volume of water pressing down from above.Understanding sea pressure is crucial for marine scientists and engineers. For every 10 meters of water depth, the pressure increases by approximately one atmosphere, or about 14.7 pounds per square inch. This means that at a depth of 1,000 meters, the pressure is about 100 times greater than at the surface. Such high levels of sea pressure can have profound effects on marine life. Many species have adapted to thrive under these extreme conditions, developing unique physiological features that allow them to withstand the crushing force of the water.For example, deep-sea creatures like the giant squid and certain species of fish possess flexible bodies and specialized structures that help them manage the intense sea pressure. Their bodies are often filled with a gel-like substance that resists compression, allowing them to maintain their shape and survive in an environment where most other organisms would be crushed. This incredible adaptability showcases the resilience of life in the ocean and highlights the importance of understanding sea pressure for conservation efforts.In addition to its impact on marine life, sea pressure also plays a significant role in underwater exploration and technology. Submersibles and remotely operated vehicles (ROVs) must be designed to withstand the immense forces encountered at great depths. Engineers must carefully calculate the materials and structural integrity needed to ensure these vehicles can operate effectively without succumbing to sea pressure. This requires a deep understanding of physics and engineering principles, as well as the specific challenges posed by the underwater environment.Moreover, sea pressure can influence geological processes as well. The weight of the water can affect tectonic activity and the formation of underwater features like trenches and mountains. Scientists study these interactions to gain insights into the Earth's geology and the dynamics of plate tectonics. Understanding how sea pressure interacts with geological formations can lead to better predictions of natural disasters such as earthquakes and tsunamis, ultimately aiding in disaster preparedness and response efforts.In conclusion, sea pressure is a fundamental aspect of the ocean that impacts everything from marine life to technological advancements and geological processes. As we continue to explore the mysteries of the deep sea, our understanding of sea pressure will undoubtedly deepen, revealing new insights into the complex interplay between life and the ocean's physical forces. By studying this phenomenon, we not only enhance our knowledge of marine ecosystems but also improve our ability to protect and preserve the delicate balance of life beneath the waves.

海洋是一个广阔而神秘的水体，覆盖了地球表面超过70%。在其波涛之下，存在着一个既迷人又令人畏惧的世界，受各种物理力量的支配。其中一个影响海洋生命的重要因素是海压的概念，它指的是水面上方任何给定点所施加的水的重量产生的压力。当我们深入海洋深处时，海压由于上方巨大的水体体积而急剧增加。理解海压对海洋科学家和工程师至关重要。每下降10米水深，压力大约增加一个大气压，或约14.7磅每平方英寸。这意味着在1,000米的深度，压力大约是表面压力的100倍。这种高水平的海压对海洋生物有深远的影响。许多物种已经适应了在这些极端条件下生存，发展出独特的生理特征，使它们能够抵御水的压迫力。例如，深海生物如巨型鱿鱼和某些鱼类具有灵活的身体和特殊的结构，帮助它们应对强烈的海压。它们的身体通常充满了一种凝胶状物质，可以抵抗压缩，使它们能够保持形状并在大多数其他生物会被压碎的环境中生存。这种令人难以置信的适应能力展示了海洋生命的韧性，并强调了理解海压对保护工作的重要性。除了对海洋生命的影响外，海压还在水下探索和技术中发挥着重要作用。潜水器和遥控操作的车辆（ROV）必须设计得能承受在大深度遇到的巨大力量。工程师必须仔细计算材料和结构完整性，以确保这些设备能够有效运作，而不会屈服于海压。这需要对物理学和工程原理有深入的理解，以及对水下环境所带来的特定挑战的认识。此外，海压还可以影响地质过程。水的重量可以影响构造活动和海底特征的形成，如沟壑和山脉。科学家研究这些相互作用，以获得对地球地质和板块构造动态的深入了解。了解海压如何与地质构造相互作用，可以更好地预测自然灾害，如地震和海啸，从而最终有助于灾害准备和应对工作。总之，海压是海洋的一个基本方面，影响着从海洋生命到技术进步和地质过程的一切。随着我们继续探索深海的奥秘，我们对海压的理解无疑会加深，揭示出生命与海洋物理力量之间复杂相互作用的新见解。通过研究这一现象，我们不仅增强了对海洋生态系统的了解，还提高了保护和维护水下生命微妙平衡的能力。