droplet
简明释义
n. 小滴,微滴
复 数 d r o p l e t s
英英释义
一小滴液体。 | |
Typically used to refer to tiny particles of liquid, often in the context of aerosols or biological fluids. | 通常用于指代微小的液体颗粒,常在气溶胶或生物液体的背景下使用。 |
单词用法
水滴;微水滴,小水滴 |
同义词
| 颗粒 | 空气中充满了微小的水颗粒。 | ||
| 滴 | 一滴雨水落在窗户上。 | ||
| 雾 | 晨雾笼罩着田野。 | ||
| 飞溅 | 水花的溅起吓到了孩子们。 |
反义词
| 大块 | 大部分水储存在水库中。 | ||
| 质量 | 固体的质量以克为单位测量。 |
例句
1.So water droplet shots may be over-done, but for those new to this type of shot, it can be a very rewarding (but time-consuming) experience.
也许水滴的取景太过了,可是对于拍此类照片的新手来说,大有裨益(但很费时)。
2.The droplet combustion model and numerical method have been established and droplet combustion process has been calculated by using it.
建立了燃料液滴在高温高压空气中燃烧过程的计算模型和数值方法。
3.The pond has been changed forever because of that single,innocent droplet.
只是一滴简单的水珠,永远地改变了这个池塘。
4.One droplet trickled down his chin with the slow inevitability of a tear.
一滴水珠随着不可避免的慢慢滑下的眼泪一起滑下下巴。
5.You may be put off this type of shot having seen so many of them, but there's no reason you can't experiment with water droplet shots.
看了这么多,你也许会犹豫,但没有任何理由说你不可以进行尝试。
6.Each droplet has an oil core surrounded by a thin layer of butyl cyanoacrylate.
每个微滴都有一颗油核,周围包裹着一层薄薄的氰基丙烯酸正丁酯。
7.The fog moment and fog droplet of spray-drying can be slightly adjusted.
喷雾干燥的雾矩和雾滴颗粒直径可略作调整。
8.The droplet of ink spread across the paper.
那滴墨水在纸上扩散开来。
9.The scientist observed a droplet of oil mixing with water.
科学家观察到一滴油与水混合。
10.During the rain, each droplet creates a tiny splash when it hits the ground.
下雨时,每滴水珠落地时都会溅起小水花。
11.When you breathe out in cold weather, you can see a small droplet of vapor.
在寒冷的天气里,你呼气时可以看到一小滴水蒸气。
12.A single droplet of water fell from the leaf.
一滴水珠从叶子上掉下来了。
作文
In the world of science, the term droplet (水滴) is often used to describe a small sphere of liquid. These tiny particles can be found in various contexts, from weather phenomena to biological processes. Understanding the significance of droplet (水滴) formation and behavior is essential for many fields, including meteorology, medicine, and environmental science.One of the most common examples of droplet (水滴) formation occurs during rainfall. When clouds gather moisture, they create numerous droplet (水滴)s that eventually become heavy enough to fall to the ground. This process is crucial for replenishing our water supply and supporting ecosystems. Without the presence of these droplet (水滴)s, life as we know it would not exist. The study of how these droplet (水滴)s form and coalesce is a key aspect of meteorology, helping scientists predict weather patterns and understand climate change.In addition to weather, droplet (水滴)s play a significant role in medical applications. For instance, when we cough or sneeze, we release millions of tiny droplet (水滴)s into the air. These droplet (水滴)s can carry viruses and bacteria, making them a critical factor in the spread of infectious diseases. Understanding the size and behavior of these droplet (水滴)s is essential for developing effective public health strategies. During the COVID-19 pandemic, researchers focused on how respiratory droplet (水滴)s travel through the air and how they can be mitigated with masks and social distancing measures.Moreover, in the realm of environmental science, droplet (水滴)s are vital in studying air pollution and its effects on climate. For example, when pollutants are released into the atmosphere, they can attach themselves to water droplet (水滴)s, creating acid rain. This phenomenon can have devastating effects on ecosystems, harming wildlife and damaging vegetation. By examining the interactions between pollutants and droplet (水滴)s, scientists can better understand how to combat air pollution and protect our environment.The study of droplet (水滴)s also extends to technology. In recent years, researchers have developed innovative techniques to manipulate droplet (水滴)s for various applications, such as in microfluidics. This technology allows scientists to control small volumes of liquids, enabling advancements in drug delivery systems and diagnostic devices. The ability to precisely manage droplet (水滴)s opens up new possibilities in medicine and biotechnology, showcasing the importance of this seemingly simple concept.In conclusion, the term droplet (水滴) encompasses much more than just a small sphere of liquid. Its implications span across multiple disciplines, highlighting its significance in understanding natural phenomena, public health, environmental issues, and technological advancements. As we continue to study and harness the power of droplet (水滴)s, we gain valuable insights that can lead to a better understanding of our world and improved solutions to the challenges we face. The humble droplet (水滴) serves as a reminder of the intricate connections between science and everyday life.
在科学的世界中,术语droplet(水滴)常用来描述一小球液体。这些微小的颗粒可以在各种背景下找到,从气象现象到生物过程。理解droplet(水滴)的形成和行为的重要性对于许多领域至关重要,包括气象学、医学和环境科学。droplet(水滴)形成最常见的例子发生在降雨时。当云层聚集水分时,它们会形成无数的droplet(水滴),最终变得足够重而落到地面。这一过程对补充我们的水供应和支持生态系统至关重要。没有这些droplet(水滴)的存在,我们所知的生命将无法存在。研究这些droplet(水滴)如何形成和聚合是气象学的关键方面,帮助科学家预测天气模式和理解气候变化。除了天气,droplet(水滴)在医疗应用中也扮演着重要角色。例如,当我们咳嗽或打喷嚏时,我们会向空气中释放数百万个微小的droplet(水滴)。这些droplet(水滴)可以携带病毒和细菌,使其成为传播传染病的关键因素。理解这些droplet(水滴)的大小和行为对于制定有效的公共卫生策略至关重要。在COVID-19大流行期间,研究人员专注于呼吸droplet(水滴)如何在空气中传播,以及如何通过口罩和社交距离措施来减缓传播。此外,在环境科学领域,droplet(水滴)在研究空气污染及其对气候的影响方面至关重要。例如,当污染物释放到大气中时,它们可以附着在水droplet(水滴)上,形成酸雨。这种现象可能对生态系统造成毁灭性的影响,危害野生动物并损害植被。通过研究污染物与droplet(水滴)之间的相互作用,科学家可以更好地理解如何应对空气污染并保护我们的环境。droplet(水滴)的研究还扩展到技术领域。近年来,研究人员开发了创新技术,以操控droplet(水滴)用于各种应用,例如微流体技术。这项技术使科学家能够控制小体积的液体,从而推动药物输送系统和诊断设备的发展。精确管理droplet(水滴)的能力为医学和生物技术开辟了新的可能性,展示了这一看似简单的概念的重要性。总之,术语droplet(水滴)不仅仅包含一个小球液体。它的含义跨越多个学科,突显了它在理解自然现象、公共卫生、环境问题和技术进步方面的重要性。随着我们继续研究和利用droplet(水滴)的力量,我们获得了有价值的见解,这些见解可以导致更好地理解我们的世界和改善我们面临的挑战的解决方案。谦卑的droplet(水滴)提醒我们科学与日常生活之间错综复杂的联系。
