underwater launching

简明释义

水下发射

英英释义

例句

1.The company is developing a new system for underwater launching of drones for oceanographic research.

该公司正在开发一种新系统，用于海洋研究的水下发射无人机。

2.The military conducted an exercise involving underwater launching to test their new missile systems.

军方进行了一次涉及水下发射的演习，以测试他们的新导弹系统。

3.During the demonstration, the engineers showcased the underwater launching capabilities of their latest vehicle.

在演示中，工程师展示了他们最新车辆的水下发射能力。

4.The submarine was equipped with advanced technology for underwater launching of torpedoes.

这艘潜艇配备了先进的技术，用于水下发射鱼雷。

5.Scientists are exploring the possibility of underwater launching for satellites to reduce atmospheric drag.

科学家们正在探索水下发射卫星的可能性，以减少大气阻力。

作文

The concept of underwater launching refers to the process of deploying vehicles or equipment from beneath the surface of the water. This technique is commonly used in military operations, particularly for submarines and torpedoes, as well as in scientific research to deploy underwater drones or sensors. The advantages of underwater launching are numerous. For one, it allows for stealthy operations, as launching from underwater minimizes the risk of detection by enemy radar or surveillance systems. Additionally, underwater launching can be advantageous in terms of environmental factors, such as ocean currents and waves, which can affect the trajectory and effectiveness of surface launches.In military applications, underwater launching is often employed to launch ballistic missiles from submarines. These submarines can remain hidden beneath the ocean's surface, making them difficult targets for enemy forces. The ability to launch missiles while submerged provides a strategic advantage, allowing for surprise attacks and increased survivability of the launching platform. Furthermore, the technology behind underwater launching has evolved significantly over the years, incorporating advanced guidance systems that enhance accuracy and reliability.In addition to military uses, underwater launching is also important in the field of oceanography and marine research. Scientists utilize underwater launching methods to deploy autonomous underwater vehicles (AUVs) and remotely operated vehicles (ROVs) for exploration and data collection. These vehicles can gather valuable information about underwater ecosystems, geological formations, and oceanic conditions, contributing to our understanding of the marine environment.One notable example of underwater launching in scientific research is the deployment of AUVs equipped with sensors to monitor climate change effects on coral reefs. By launching these vehicles from underwater, researchers can access areas that may be difficult or impossible to reach by boat, allowing for more comprehensive data collection.The engineering challenges associated with underwater launching cannot be overlooked. Designing mechanisms that can function effectively in high-pressure underwater environments requires innovative solutions. Engineers must consider factors such as buoyancy, hydrodynamics, and the materials used in construction to ensure successful launches. Moreover, the integration of sophisticated navigation and communication systems is crucial for the effective operation of launched vehicles.In conclusion, underwater launching plays a critical role in both military and scientific fields. Its ability to provide stealth, efficiency, and access to remote locations makes it an invaluable technique for various applications. As technology continues to advance, we can expect to see even more innovative uses of underwater launching, further enhancing our capabilities in exploring and protecting the oceans. Understanding this concept not only highlights its importance but also encourages further exploration into the technologies that enable such operations, paving the way for future advancements in both military and scientific endeavors.

“水下发射”这一概念是指从水面以下部署车辆或设备的过程。这种技术在军事行动中被广泛使用，特别是潜艇和鱼雷，同时也用于科学研究，以部署水下无人机或传感器。“水下发射”的优点有很多。首先，它允许隐秘操作，因为从水下发射可以减少被敌方雷达或监视系统发现的风险。此外，“水下发射”在环境因素方面也具有优势，例如海洋潮流和波浪，这些因素可能影响表面发射的轨迹和有效性。在军事应用中，“水下发射”通常用于从潜艇发射弹道导弹。这些潜艇可以隐藏在海洋表面之下，使其成为难以攻击的目标。能够在水下发射导弹提供了战略优势，允许进行突袭并提高发射平台的生存能力。此外，随着时间的推移，围绕“水下发射”的技术也有了显著发展，结合了先进的制导系统，增强了准确性和可靠性。除了军事用途外，“水下发射”在海洋学和海洋研究领域也十分重要。科学家利用“水下发射”方法来部署装备有传感器的自主水下航行器（AUV）和遥控水下航行器（ROV），用于探索和数据收集。这些车辆可以收集关于水下生态系统、地质结构和海洋条件的宝贵信息，为我们理解海洋环境做出贡献。一个显著的例子是科学研究中部署AUV来监测气候变化对珊瑚礁的影响。通过从水下发射这些车辆，研究人员能够访问可能很难或不可能通过船只到达的区域，从而进行更全面的数据收集。与“水下发射”相关的工程挑战不容忽视。在高压水下环境中设计能够有效运作的机制需要创新的解决方案。工程师必须考虑浮力、水动力学以及所用材料等因素，以确保发射成功。此外，高度复杂的导航和通信系统的整合对于发射车辆的有效操作至关重要。总之，“水下发射”在军事和科学领域都扮演着关键角色。它提供的隐秘性、效率和对偏远地区的访问使其成为各种应用中不可或缺的技术。随着科技的不断进步，我们可以期待看到“水下发射”更多创新的应用，进一步增强我们探索和保护海洋的能力。理解这一概念不仅突显了其重要性，还鼓励进一步探索能够支持此类操作的技术，为未来在军事和科学领域的进步铺平道路。