air bubble

简明释义

气泡

英英释义

例句

1.The artist used a straw to create air bubbles 空气泡 in the paint for a unique texture.

艺术家用吸管在油漆中创造了air bubbles 空气泡，以获得独特的质感。

2.A small air bubble 空气泡 can form in the bloodstream during certain medical procedures.

在某些医疗程序中，血液中可能会形成一个小的air bubble 空气泡。

3.In cooking, adding air bubbles 空气泡 to batter can make baked goods lighter and fluffier.

在烹饪中，向面糊中添加air bubbles 空气泡可以使烘焙食品更加轻盈和松软。

4.The air bubble 空气泡 in the liquid caused the drink to fizz when opened.

液体中的air bubble 空气泡导致饮料在打开时冒泡。

5.When scuba diving, it's important to release an air bubble 空气泡 slowly to avoid decompression sickness.

潜水时，缓慢释放一个air bubble 空气泡是很重要的，以避免减压病。

作文

In the realm of science and nature, the concept of an air bubble (气泡) plays a significant role in various phenomena. An air bubble is essentially a pocket of air trapped within a liquid or solid medium. This simple yet fascinating occurrence can be observed in everyday life, from the bubbles that rise in a glass of soda to the larger bubbles formed when boiling water. Understanding the intricacies of air bubbles not only enhances our knowledge of physical science but also provides insight into numerous practical applications.One of the most common places we encounter air bubbles is in carbonated beverages. When a bottle of soda is opened, the pressure inside is released, allowing dissolved carbon dioxide gas to form air bubbles. These bubbles rise to the surface, creating a fizzy sensation that many people enjoy. The formation of air bubbles in this context is a perfect example of gas escaping from a liquid due to a change in pressure. This phenomenon illustrates the principles of gas solubility and the behavior of gases under varying conditions.Moreover, air bubbles are crucial in various industrial processes. In the field of wastewater treatment, for instance, aeration systems introduce air bubbles into sewage, promoting the growth of aerobic bacteria that help break down organic matter. This process not only cleans the water but also helps in the reduction of harmful pathogens. The size and distribution of air bubbles can significantly affect the efficiency of these systems, making it essential to study their dynamics.In nature, air bubbles can also be found in aquatic environments. Fish and other aquatic organisms often release air bubbles as they exhale, which can serve as a means of communication or even a way to regulate buoyancy. Additionally, underwater volcanic eruptions can produce large quantities of air bubbles, which contribute to the unique ecosystems found around hydrothermal vents. These bubbles play a critical role in the transfer of gases between the ocean and the atmosphere, impacting global climate patterns.The study of air bubbles extends beyond natural occurrences; it also intersects with various scientific fields such as physics, chemistry, and biology. Researchers investigate the mechanics of air bubbles to understand phenomena like cavitation, where rapid changes in pressure lead to the formation and collapse of bubbles, potentially causing damage to propellers and pumps. Furthermore, the behavior of air bubbles in emulsions and foams is vital in food science and cosmetics, influencing texture and stability.In conclusion, the significance of air bubbles (气泡) transcends mere observation; they are integral to both scientific inquiry and practical applications across multiple disciplines. From enhancing our enjoyment of fizzy drinks to playing a pivotal role in environmental processes and industrial operations, air bubbles are a testament to the interconnectedness of the natural world. By studying these fascinating phenomena, we gain not only a deeper understanding of physical principles but also the inspiration to innovate and improve various technologies that rely on the behavior of air bubbles.

在科学和自然的领域中，气泡（air bubble）这一概念在各种现象中发挥着重要作用。气泡本质上是空气被困在液体或固体介质中的一个口袋。这种简单而迷人的现象可以在日常生活中观察到，从一杯苏打水中上升的气泡到沸水时形成的较大气泡。理解气泡的复杂性不仅增强了我们对物理科学的认识，还为许多实际应用提供了洞察。我们遇到气泡最常见的地方是碳酸饮料。当一瓶苏打水打开时，内部的压力释放，允许溶解的二氧化碳气体形成气泡。这些气泡上升到表面，创造出许多人喜欢的汽泡感。这种情况下气泡的形成是气体因压力变化而从液体中逸出的完美例子。这一现象说明了气体溶解度的原理以及气体在不同条件下的行为。此外，气泡在各种工业过程中至关重要。在废水处理领域，例如，曝气系统将气泡引入污水，促进好氧细菌的生长，帮助分解有机物。这一过程不仅净化了水，还帮助减少有害病原体。气泡的大小和分布会显著影响这些系统的效率，因此研究它们的动态非常重要。在自然界中，气泡也可以在水生环境中找到。鱼类和其他水生生物通常在呼气时释放气泡，这可能作为一种交流方式，甚至是一种调节浮力的手段。此外，水下火山喷发可以产生大量气泡，这些气泡为热液喷口周围独特的生态系统做出贡献。这些气泡在海洋与大气之间的气体转移中发挥着关键作用，影响全球气候模式。对气泡的研究超越了自然现象；它还与物理、化学和生物等多个科学领域交叉。研究人员调查气泡的力学，以理解像空化这样的现象，即快速的压力变化导致气泡的形成和崩溃，可能对螺旋桨和泵造成损害。此外，气泡在乳液和泡沫中的行为在食品科学和化妆品中至关重要，影响着质地和稳定性。总之，气泡（air bubble）的重要性超越了简单的观察；它们是多个学科中科学探究和实际应用的重要组成部分。从增强我们对气泡饮料的享受，到在环境过程和工业操作中发挥关键作用，气泡证明了自然世界的相互联系。通过研究这些迷人的现象，我们不仅加深了对物理原理的理解，还获得了创新的灵感，以改善依赖于气泡行为的各种技术。