sea pressure

简明释义

海上压力

英英释义

例句

1.Marine life has adapted to survive the high sea pressure 海水压力 found in the deep ocean.

海洋生物已经适应了深海中存在的高海水压力。

2.Engineers designed the underwater structure to resist sea pressure 海水压力 that could crush ordinary materials.

工程师设计了水下结构，以抵御可能压碎普通材料的海水压力。

3.The submarine must withstand the immense sea pressure 海水压力 at depths of over 1,000 meters.

潜艇必须承受超过1,000米深度的巨大海水压力。

4.The research team studied how sea pressure 海水压力 affects the geological formations on the ocean floor.

研究小组研究了海水压力如何影响海底的地质构造。

5.When diving, it's important to monitor sea pressure 海水压力 to avoid decompression sickness.

潜水时，监测海水压力以避免减压病是很重要的。

作文

The ocean is a vast and mysterious place, filled with wonders that both fascinate and challenge scientists and explorers alike. One of the most intriguing aspects of the ocean is the concept of sea pressure, which refers to the weight of water above a certain depth exerting force on objects submerged in it. As we delve deeper into the ocean, the sea pressure increases significantly due to the sheer volume of water pressing down from above. This phenomenon has profound implications for marine life, underwater exploration, and even our understanding of physics.To comprehend the effects of sea pressure, one must first understand how it works. At sea level, the atmospheric pressure is about 1013 hPa (hectopascals). As you descend into the ocean, every 10 meters of water adds approximately another atmosphere of pressure. For example, at a depth of 100 meters, a diver experiences around 10 atmospheres of pressure, which is equivalent to 10 times the pressure felt at sea level. This increase in pressure can have dramatic effects on both living organisms and equipment used for exploration.Many marine creatures have adapted to survive in high sea pressure environments. For instance, deep-sea fish possess flexible bodies and specialized structures that allow them to withstand the crushing forces of the ocean depths. Their bodies are often devoid of air-filled cavities, which prevents them from being crushed by the intense pressure. In contrast, humans and many other terrestrial animals are not equipped to handle such extreme conditions without assistance. This is why submersibles and diving suits are essential for exploring the deep sea, as they are designed to withstand the immense sea pressure found at great depths.The study of sea pressure also plays a crucial role in various scientific fields, including oceanography and marine biology. Scientists use sophisticated instruments to measure sea pressure at different depths, allowing them to gather data on ocean currents, temperature changes, and the distribution of marine species. Understanding these factors is vital for predicting climate change impacts and managing marine resources effectively.In addition to its scientific significance, sea pressure poses challenges for underwater construction and infrastructure. Engineers must design submarines, underwater pipelines, and research stations to endure the relentless pressure of the ocean. Failure to account for sea pressure can lead to catastrophic consequences, including structural failures and loss of life. Therefore, rigorous testing and calculations are necessary to ensure the safety and functionality of underwater projects.In conclusion, sea pressure is a fundamental aspect of the ocean that affects everything from marine life to human exploration and engineering. As we continue to explore the mysteries of the deep sea, understanding sea pressure will be essential for unlocking new discoveries and ensuring the safety of those who venture into this enigmatic world. The ocean remains an untamed frontier, and with each dive into its depths, we learn more about the incredible forces that shape our planet and the life it sustains.

海洋是一个广阔而神秘的地方，充满了令人着迷和挑战科学家及探险者的奇观。海洋中最引人入胜的方面之一就是海洋压力的概念，它指的是水面上方的重量在一定深度上对沉没物体施加的力量。当我们深入海洋时，海洋压力由于上方水的巨大体积而显著增加。这种现象对海洋生物、水下探险，甚至对我们对物理学的理解都有深远的影响。要理解海洋压力的影响，首先必须了解它是如何运作的。在海平面，气压约为1013 hPa（百帕）。当你向海洋深处下降时，每10米的水大约会增加一个大气压。例如，在100米的深度，潜水员会经历约10个大气压，这相当于海平面所感受到的压力的10倍。这种压力的增加对生物体和用于探测的设备都有戏剧性的影响。许多海洋生物已经适应了在高海洋压力环境中生存。例如，深海鱼类具有灵活的身体和专门的结构，使它们能够承受海洋深处的压迫力量。它们的身体通常没有充满空气的腔体，这防止了它们被强大的压力压扁。相比之下，人类和许多其他陆地动物并没有装备来处理如此极端的条件，而不需要帮助。这就是为什么潜艇和潜水服对于探索深海至关重要，因为它们旨在承受在巨大深度下的强大海洋压力。对海洋压力的研究在海洋学和海洋生物学等多个科学领域中也发挥着关键作用。科学家使用复杂的仪器来测量不同深度的海洋压力，使他们能够收集有关海洋洋流、温度变化和海洋物种分布的数据。理解这些因素对于预测气候变化的影响和有效管理海洋资源至关重要。除了其科学意义外，海洋压力还对水下建筑和基础设施提出了挑战。工程师必须设计潜艇、水下管道和研究站，以耐受海洋的持续压力。如果不考虑海洋压力，可能会导致灾难性的后果，包括结构故障和生命损失。因此，进行严格的测试和计算是确保水下项目的安全和功能的必要条件。总之，海洋压力是海洋的一个基本方面，影响着从海洋生物到人类探索和工程的一切。随着我们继续探索深海的奥秘，理解海洋压力将对揭示新发现和确保那些进入这个神秘世界的人的安全至关重要。海洋仍然是一个未驯服的边疆，每一次潜入其深处，我们都能更多地了解塑造我们星球及其所支持生命的不可思议的力量。