working buoyancy

简明释义

载货浮力

英英释义

例句

1.To prevent capsizing, the boat's working buoyancy must be carefully monitored during rough seas.

为了防止翻船，船只的工作浮力必须在恶劣海况下仔细监测。

2.In underwater construction, understanding working buoyancy is crucial for safety and efficiency.

在水下施工中，理解工作浮力对安全和效率至关重要。

3.Adjusting the weights on the vessel helped achieve the desired working buoyancy for optimal performance.

调整船只上的重量有助于实现理想的工作浮力以获得最佳性能。

4.The engineer calculated the working buoyancy to ensure the platform would remain stable in the water.

工程师计算了工作浮力以确保平台在水中保持稳定。

5.The research team studied the working buoyancy of different materials for their new submersible design.

研究小组研究了不同材料的工作浮力以用于他们的新潜水器设计。

作文

The concept of working buoyancy is integral to understanding how objects interact with fluids. In simple terms, working buoyancy refers to the ability of an object to remain afloat or to resist sinking when placed in a liquid. This principle is not only applicable in physics but also extends to various fields such as engineering, marine biology, and even psychology. Understanding this concept can help us appreciate the delicate balance of forces that allow boats to float and fish to swim effortlessly through water.In physics, working buoyancy is often explained through Archimedes' principle, which states that any object submerged in a fluid experiences an upward force equal to the weight of the fluid displaced by the object. This principle is crucial for engineers when designing ships and submarines, as they must calculate the appropriate hull shape and materials to ensure that the vessel has enough working buoyancy to stay afloat under various conditions.For instance, consider a large cargo ship. The design of its hull is specifically engineered to maximize working buoyancy. By creating a shape that displaces a significant amount of water, the ship can carry heavy loads while remaining stable on the surface. If the working buoyancy is insufficient due to poor design or overloading, the ship risks capsizing or sinking, which can lead to disastrous consequences.In marine biology, the concept of working buoyancy is essential for understanding how aquatic animals adapt to their environments. Fish, for example, have a specialized organ called a swim bladder that allows them to regulate their buoyancy. By adjusting the amount of gas in this organ, fish can rise or descend in the water column without expending much energy. This ability to control working buoyancy enables them to find food, escape predators, and thrive in their aquatic habitats.Interestingly, the idea of working buoyancy can also be applied metaphorically in psychology and personal development. Just as objects need a certain amount of buoyancy to stay afloat in water, individuals require emotional and mental support to navigate life's challenges. When people face overwhelming stress or adversity, they may feel as though they are sinking. In these moments, finding sources of support—be it friends, family, or professional help—can provide the necessary working buoyancy to keep them afloat.Moreover, cultivating resilience and coping strategies can enhance one’s working buoyancy in the face of difficulties. For instance, practicing mindfulness or engaging in physical activities can improve mental health and provide the strength needed to overcome obstacles. Just like a well-designed ship or a fish with a properly functioning swim bladder, individuals equipped with the right tools and support systems can navigate through turbulent waters of life more effectively.In conclusion, the term working buoyancy encompasses a variety of applications across different fields. Whether we are discussing the physics of floating objects, the adaptations of marine life, or the emotional resilience of individuals, the underlying principle remains the same: maintaining balance and stability is crucial for success and survival. By understanding and applying the concept of working buoyancy, we can better navigate both the physical and metaphorical waters of our lives.

“工作浮力”这个概念对于理解物体如何与流体相互作用至关重要。简单来说，“工作浮力”指的是一个物体在液体中保持漂浮或抵抗下沉的能力。这个原理不仅适用于物理学，还扩展到工程学、海洋生物学，甚至心理学等多个领域。理解这一概念可以帮助我们欣赏那些使船只漂浮和鱼类在水中轻松游动的力量之间的微妙平衡。在物理学中，“工作浮力”通常通过阿基米德原理来解释，该原理指出，任何浸没在流体中的物体都会受到一个向上的力，这个力等于物体所排开的流体的重量。这个原理对于工程师在设计船只和潜艇时至关重要，因为他们必须计算出适当的船体形状和材料，以确保船只在各种条件下具有足够的“工作浮力”以保持漂浮。例如，考虑一艘大型货船。其船体的设计是专门工程化，以最大化“工作浮力”。通过创造一种能够排开大量水的形状，船只可以在水面上稳定地承载重载。如果由于设计不当或超载导致“工作浮力”不足，船只就有翻覆或沉没的风险，这可能导致灾难性的后果。在海洋生物学中，“工作浮力”的概念对于理解水生动物如何适应其环境至关重要。例如，鱼类拥有一种叫做鳔的特殊器官，可以调节它们的浮力。通过调整这个器官中的气体量，鱼类可以在水柱中上升或下降，而无需消耗太多能量。这种控制“工作浮力”的能力使它们能够寻找食物、逃避捕食者，并在水域中茁壮成长。有趣的是，“工作浮力”的理念在心理学和个人发展中也可以隐喻性地应用。正如物体需要一定的浮力才能在水中漂浮一样，个人在应对生活挑战时也需要情感和心理支持。当人们面临巨大的压力或逆境时，他们可能会感到自己正在下沉。在这些时刻，寻找支持来源——无论是朋友、家人还是专业帮助——都可以提供必要的“工作浮力”来使他们保持漂浮。此外，培养韧性和应对策略可以增强个人在面对困难时的“工作浮力”。例如，练习正念或参与体育活动可以改善心理健康，并提供克服障碍所需的力量。就像设计良好的船只或功能正常的鱼鳔一样，具备正确工具和支持系统的个人可以更有效地在生活的波涛中航行。总之，术语“工作浮力”涵盖了不同领域的多种应用。无论我们是在讨论漂浮物体的物理学、海洋生物的适应，还是个人的情感韧性，其基本原理都是相同的：保持平衡和稳定对于成功和生存至关重要。通过理解和应用“工作浮力”的概念，我们可以更好地驾驭生活的物理和隐喻的水域。