buoyancy assembly

简明释义

浮力件组

英英释义

例句

1.We need to replace the buoyancy assembly 浮力组件 to ensure the safety of the life raft.

我们需要更换浮力组件以确保救生筏的安全。

2.During the test, the buoyancy assembly 浮力组件 helped the vessel stay afloat despite heavy waves.

在测试过程中，<在>浮力组件<在>帮助船只在巨浪中保持漂浮。

3.The engineer explained how the buoyancy assembly 浮力组件 works in the new underwater drone.

工程师解释了新型水下无人机中如何工作<在>浮力组件<在>。

4.The buoyancy assembly 浮力组件 is crucial for maintaining stability in marine structures.

浮力组件对于维持海洋结构的稳定性至关重要。

5.Understanding the design of the buoyancy assembly 浮力组件 can improve our boat's performance.

理解浮力组件的设计可以提高我们船只的性能。

作文

The concept of buoyancy assembly is crucial in various fields, particularly in engineering and design. It refers to the arrangement or system that allows an object to float or remain suspended in a fluid. Understanding this principle is essential for anyone involved in creating vessels, whether they are boats, submarines, or even space vehicles. The buoyancy assembly plays a significant role in ensuring stability and functionality in these designs.In marine engineering, for instance, the buoyancy assembly is meticulously calculated to ensure that ships can carry their loads without sinking. Engineers must consider factors such as the shape of the vessel, the materials used, and the weight distribution of the cargo. A well-designed buoyancy assembly allows a ship to navigate through water efficiently, maintaining its balance even in rough conditions.Similarly, in the field of aerospace, the buoyancy assembly is vital for designing balloons and airships. These crafts rely on lighter-than-air gases to create lift. The buoyancy assembly in this context involves not just the gas used but also the structure that holds it. Engineers must ensure that the envelope of the balloon is strong enough to contain the gas while being lightweight enough to allow for flight. This balance is critical for the success of any aerial vehicle.Furthermore, understanding the buoyancy assembly extends beyond just traditional engineering applications. In environmental science, for example, researchers study how different materials can affect the buoyancy of objects in water, which has implications for pollution control and marine life conservation. By manipulating the buoyancy assembly of various materials, scientists can develop solutions to help clean up oil spills or manage waste in oceans.In education, teaching students about the buoyancy assembly can spark interest in physics and engineering. Simple experiments, such as building boats from different materials and testing their buoyancy, can illustrate these principles in a fun and engaging way. Such hands-on activities help students grasp the concept of density and buoyancy, laying a foundation for more complex scientific ideas.In summary, the buoyancy assembly is a fundamental principle that impacts numerous industries and disciplines. Whether in designing safe and effective marine vessels, creating innovative aerial vehicles, or addressing environmental challenges, understanding how to manipulate buoyancy is essential. As technology advances, the applications of buoyancy assembly will continue to evolve, making it a topic worth exploring for future engineers and scientists. The importance of this concept cannot be overstated, as it is integral to both practical applications and theoretical explorations in fluid dynamics and material science.

‘浮力装置’的概念在各个领域都至关重要，尤其是在工程和设计中。它指的是允许物体在流体中漂浮或保持悬浮的排列或系统。理解这一原理对于任何参与制造船只的人来说都是必不可少的，无论是船只、潜艇还是甚至是航天器。‘浮力装置’在确保这些设计的稳定性和功能性方面发挥着重要作用。例如，在海洋工程中，‘浮力装置’经过精心计算，以确保船只能够在不沉没的情况下承载其货物。工程师必须考虑诸如船只的形状、所用材料以及货物的重量分布等因素。设计良好的‘浮力装置’使船只能够高效地在水中航行，即使在恶劣条件下也能保持平衡。同样，在航空航天领域，‘浮力装置’对于设计气球和飞艇至关重要。这些飞行器依赖于比空气轻的气体来产生升力。在这种情况下，‘浮力装置’不仅涉及所使用的气体，还涉及容纳气体的结构。工程师必须确保气球的外壳足够坚固，以容纳气体，同时又足够轻，以便飞行。这种平衡对于任何空中交通工具的成功至关重要。此外，理解‘浮力装置’不仅限于传统的工程应用。在环境科学中，例如，研究人员研究不同材料如何影响物体在水中的浮力，这对污染控制和海洋生物保护具有重要意义。通过操纵各种材料的‘浮力装置’，科学家可以开发出解决方案，帮助清理油污或管理海洋废物。在教育方面，教学生关于‘浮力装置’的知识可以激发他们对物理和工程的兴趣。简单的实验，比如用不同材料建造船只并测试其浮力，可以以有趣和引人入胜的方式说明这些原理。这种动手活动帮助学生掌握密度和浮力的概念，为更复杂的科学思想奠定基础。总之，‘浮力装置’是一个基本原理，影响着众多行业和学科。无论是在设计安全有效的海洋船只、创造创新的空中交通工具，还是应对环境挑战，理解如何操纵浮力都是至关重要的。随着技术的进步，‘浮力装置’的应用将继续发展，使其成为未来工程师和科学家值得探索的主题。这个概念的重要性不容小觑，因为它是流体动力学和材料科学中实际应用和理论探索的核心。