bathyscaph

简明释义

英[ˈbæθɪˌskæf]美[ˈbæθəˌskæf]

深潜器

英英释义

单词用法

同义词

反义词

例句

1.The bathysphere, limited to depths of about 900 meters (3,000 feet), has been supplanted by the safer and more navigable bathyscaph.

潜水深度限制在900米，现已被更安全、更能航行的深海潜测艇所代替。

2.In 1960, U.S. Navy Lieutenant Don Walsh and Jacques Picard in the bathyscaph "Trieste" reached the bottom of the Trench at 35, 840 feet deep.

1960年时，美国海军上尉唐·沃什和雅克·皮卡德乘坐的里雅斯特号深海潜水艇到达了35840英尺深的海沟底部。

3.It has been supplanted by the safer and more navigable bathyscaph.

它现已被更安全、更能航行的深海潜测艇所代替。

4.In 1960, U.S. Navy Lieutenant Don Walsh and Jacques Picard in the bathyscaph "Trieste" reached the bottom of the Trench at 35, 840 feet deep.

1960年时，美国海军上尉唐·沃什和雅克·皮卡德乘坐的里雅斯特号深海潜水艇到达了35840英尺深的海沟底部。

5.The researchers used a bathyscaph to explore the depths of the Mariana Trench.

研究人员使用了一个深潜器来探索马里亚纳海沟的深处。

6.During the expedition, the bathyscaph provided crucial data about deep-sea ecosystems.

在探险过程中，深潜器提供了关于深海生态系统的重要数据。

7.Using a bathyscaph, scientists can reach depths that were previously unreachable.

科学家们可以使用深潜器到达以前无法到达的深度。

8.The design of the bathyscaph allows it to withstand immense pressure.

该深潜器的设计使其能够承受巨大的压力。

9.The crew descended in the bathyscaph, eager to witness the underwater life.

船员们在深潜器中下潜，渴望目睹水下生物。

作文

The ocean is one of the last frontiers of our planet, holding secrets and mysteries that have yet to be uncovered. Among the many instruments designed to explore these depths, the bathyscaph stands out as a remarkable innovation in underwater exploration. A bathyscaph is essentially a submersible vessel that allows scientists and adventurers to dive into the deep sea, reaching depths that were once thought to be unreachable. This unique vehicle combines the principles of buoyancy and pressure resistance, enabling it to withstand the immense pressures found in the ocean's abyss.The concept of the bathyscaph was first introduced in the early 20th century, with notable advancements made by pioneers such as Auguste Piccard. He designed the first successful bathyscaph, named the Trieste, which made history in 1960 by reaching the Challenger Deep in the Mariana Trench, the deepest known point in the Earth's oceans. This monumental achievement not only showcased human ingenuity but also opened up new avenues for oceanographic research.One of the most intriguing aspects of the bathyscaph is its ability to carry researchers and scientists to incredible depths, allowing them to study marine life and geological formations that are otherwise inaccessible. The bathyscaph is equipped with various tools and instruments, such as cameras and sampling devices, which enable scientists to capture images and collect samples from the ocean floor. This data is crucial for understanding the biodiversity of the deep sea and the impact of human activities on these fragile ecosystems.Moreover, the bathyscaph has played a significant role in advancing our knowledge of underwater geology. By exploring the ocean floor, scientists can gather valuable information about tectonic plate movements, underwater volcanoes, and hydrothermal vents. These studies contribute to our understanding of the Earth's geological processes and help us predict natural disasters such as earthquakes and tsunamis.In recent years, the use of bathyscaphs has expanded beyond scientific research to include commercial ventures and tourism. Companies now offer deep-sea diving experiences in bathyscaphs, allowing thrill-seekers to witness the wonders of the deep ocean firsthand. This shift towards commercial exploration raises important questions about the sustainability of our oceans and the need for responsible practices in deep-sea tourism.As we continue to explore the depths of the ocean with the help of bathyscaphs, it is essential to remember the importance of preserving these ecosystems. The deep sea is home to countless species that have adapted to extreme conditions, and their survival is crucial for maintaining the health of our planet. Therefore, as we venture into these uncharted territories, we must prioritize conservation efforts and ensure that our explorations do not harm the delicate balance of marine life.In conclusion, the bathyscaph represents a remarkable achievement in engineering and exploration, providing us with a window into the mysterious world beneath the waves. Its contributions to science, geology, and even tourism highlight the importance of understanding and protecting our oceans. As we look to the future, may we continue to harness the power of the bathyscaph responsibly, ensuring that we respect and preserve the wonders of the deep sea for generations to come.

海洋是我们星球上最后的边界之一，隐藏着尚未揭开的秘密和谜团。在众多旨在探索这些深度的工具中，bathyscaph作为水下探索中的一项卓越创新脱颖而出。bathyscaph本质上是一种潜水器，允许科学家和冒险者潜入深海，达到曾经被认为无法到达的深度。这种独特的载具结合了浮力和抗压的原理，使其能够承受海洋深处巨大的压力。bathyscaph的概念首次出现在20世纪初，著名的先驱如奥古斯特·皮卡尔（Auguste Piccard）做出了显著的进展。他设计了第一艘成功的bathyscaph，名为“特里斯特”（Trieste），该船在1960年创造了历史，达到了马里亚纳海沟的挑战者深渊，这是地球海洋中已知的最深点。这一里程碑式的成就不仅展示了人类的聪明才智，还为海洋学研究开辟了新的途径。bathyscaph最引人入胜的方面之一是它能够将研究人员和科学家带到难以到达的深度，使他们能够研究这些深海生物和地质结构。bathyscaph配备了各种工具和仪器，如相机和采样设备，使科学家能够捕捉图像并从海底收集样本。这些数据对理解深海生物多样性及人类活动对这些脆弱生态系统的影响至关重要。此外，bathyscaph在推动我们对水下地质学的认识方面也发挥了重要作用。通过探索海底，科学家可以收集有关构造板块运动、水下火山和热液喷口的宝贵信息。这些研究有助于我们理解地球的地质过程，并帮助我们预测自然灾害，如地震和海啸。近年来，bathyscaph的使用已超越科学研究，扩展到商业活动和旅游。公司现在提供深海潜水体验，让寻求刺激的人亲身见证深海的奇观。这种向商业探索的转变引发了关于我们海洋可持续性和深海旅游负责任实践的重大问题。随着我们继续利用bathyscaph探索海洋深处，我们必须记住保护这些生态系统的重要性。深海是无数适应极端条件的物种的栖息地，它们的生存对维持我们星球的健康至关重要。因此，在我们进入这些未知领域时，必须优先考虑保护工作，确保我们的探索不会损害海洋生物的微妙平衡。总之，bathyscaph代表了工程和探索中的一项非凡成就，为我们提供了一个观察波浪下神秘世界的窗口。它对科学、地质学甚至旅游的贡献突显了理解和保护我们海洋的重要性。展望未来，愿我们继续负责地利用bathyscaph的力量，确保尊重和保护深海的奇观，以造福后代。