vaporize
简明释义
vi. 蒸发
vt. 使……蒸发
第 三 人 称 单 数 v a p o r i z e s
现 在 分 词 v a p o r i z i n g
过 去 式 v a p o r i z e d
过 去 分 词 v a p o r i z e d
英英释义
将物质转化为蒸汽或气体,特别是通过加热。 | |
突然和完全地消失。 |
单词用法
蒸发得无影无踪 | |
将某种物质蒸发 | |
迅速蒸发 | |
在高温下蒸发 |
同义词
| 蒸发 | 水在加热时会蒸发。 | ||
| 分解 | 该材料在极端高温下开始分解。 | ||
| 升华 | 一些固体可以直接升华为气体。 | ||
| 气化 | 某些燃料可以气化以产生能量。 |
反义词
| 凝结 | 水蒸气在冷却时可以凝结成液体。 | ||
| 固化 | 金属在冷却时会固化。 | ||
| 冻结 | If the temperature drops low enough, the liquid will freeze. | 如果温度降得足够低,液体将会冻结。 |
例句
1.The meteors are debris from this comet that enter Earth's atmosphere and vaporize as they fall.
流星雨是哈雷彗星在穿越地球大气层时掉落的碎片在汽化而成的。
2.As the cloud collapses, it heats up and compresses in the center. It heats enough for the dust to vaporize.
随着这些云的瓦解,它的内部开始变热并压缩,它热到能使尘埃蒸发。
3.When the beam is focused to a small spot, its power density is raised to produce sufficient heat to vaporize any material.
当光束在一个小点上聚焦时,其功率强度得以提高,并产生足够的热量来汽化任何材料。
4.Vaporize that convoy! No trace of the Mechtech can remain!
气化那运输队!轴动变形武器一①件也不可以留!
5.High temperatures can vaporize, burn, melt, or re-temper components.
高温可以使部件,气化,燃烧,熔化,软化!
6.It of the mission completes will vaporize to after to go to in the air.
当它的使命完成之后就要挥发到空气中去。
7.The scientist used heat to vaporize the liquid into gas.
科学家用热量将液体蒸发成气体。
8.In the process of combustion, fuel can vaporize quickly.
在燃烧过程中,燃料可以迅速蒸发。
9.The sun's heat can vaporize water from the surface of lakes.
太阳的热量可以使湖面上的水蒸发。
10.The magician made the rabbit vaporize into thin air.
魔术师让兔子消失在空气中。
11.When water reaches its boiling point, it starts to vaporize.
当水达到沸点时,它开始蒸发。
作文
In the realm of science and technology, the process of converting a substance from its liquid state to a gaseous state is known as vaporize. This phenomenon is not only crucial in various scientific experiments but also plays a significant role in our daily lives. The act to vaporize involves adding heat to a liquid until it reaches its boiling point, at which point the molecules gain enough energy to escape into the air as vapor. Understanding this process can help us appreciate many everyday occurrences, such as boiling water or the functioning of a steam engine.For instance, when we heat water in a kettle, we witness the transformation as the liquid gradually begins to vaporize. Initially, the water temperature rises, and small bubbles start to form at the bottom of the kettle. As the heat continues, these bubbles grow larger and rise to the surface, eventually leading to vigorous boiling. At this stage, the water is rapidly vaporized into steam, which we can see escaping from the spout of the kettle. This simple process illustrates the fundamental principles of thermodynamics and phase changes.The implications of vaporizetion extend beyond the kitchen. In industrial applications, various substances are intentionally vaporized for processes such as distillation, where mixtures are separated based on differences in boiling points. For example, in the production of essential oils, plant materials are subjected to steam distillation, allowing the volatile compounds to vaporize and be collected as concentrated oils. This method highlights how the principle of vaporizetion is harnessed to create valuable products.Moreover, the concept of vaporizetion is also evident in environmental science. Water bodies undergo natural vaporizetion due to solar heating, contributing to the water cycle. As the sun warms the surface of lakes and rivers, water molecules gain energy and begin to vaporize, rising into the atmosphere. This process is vital for weather patterns and precipitation, as the water vapor eventually condenses into clouds and falls back to the earth as rain or snow.In addition, the phenomenon of vaporizetion plays a critical role in modern technologies, including the development of electronic cigarettes. These devices operate by heating a liquid solution until it vaporizes, producing an aerosol that users inhale. The ability to control the temperature allows for the customization of flavor and intensity, showcasing a practical application of the vaporizetion process.In conclusion, the term vaporize refers to the transformation of a liquid into vapor through the application of heat. This fundamental process is not only a cornerstone of scientific understanding but also has profound implications across various fields, from culinary arts to industrial manufacturing and environmental science. By recognizing the significance of vaporizetion in our world, we can better appreciate the intricate connections between science and everyday life. Whether we are boiling water for tea or observing the clouds in the sky, the process of vaporizetion is always at play, reminding us of the dynamic nature of matter and energy.
在科学和技术的领域中,将物质从液态转变为气态的过程被称为vaporize。这一现象不仅在各种科学实验中至关重要,还在我们的日常生活中发挥着重要作用。vaporize的行为涉及向液体添加热量,直到其达到沸点,此时分子获得足够的能量逃逸到空气中形成蒸汽。理解这一过程可以帮助我们欣赏许多日常发生的事情,例如煮水或蒸汽机的运作。例如,当我们在水壶中加热水时,我们可以目睹这种转变,液体逐渐开始vaporize。最初,水温升高,底部开始形成小气泡。随着热量的持续,这些气泡变得越来越大并上升到表面,最终导致剧烈的沸腾。在这个阶段,水迅速vaporize成蒸汽,我们可以看到蒸汽从水壶的喷嘴中冒出。这一简单的过程说明了热力学和相变的基本原理。vaporize的影响超越了厨房。在工业应用中,各种物质被故意vaporize用于如蒸馏等过程,其中混合物根据沸点的差异被分离。例如,在精油的生产中,植物材料经过蒸汽蒸馏,使挥发性化合物能够vaporize并作为浓缩油收集。这种方法突显了如何利用vaporize的原理来创造有价值的产品。此外,vaporize的概念在环境科学中也显而易见。水体由于太阳加热而自然vaporize,这有助于水循环。当太阳加热湖泊和河流的表面时,水分子获得能量并开始vaporize,上升到大气中。这个过程对天气模式和降水至关重要,因为水蒸气最终会凝结成云并以雨或雪的形式落回地球。此外,vaporize现象在现代技术中也发挥着关键作用,包括电子烟的发展。这些设备通过加热液体溶液,直到其vaporize,产生用户吸入的气溶胶。控制温度的能力允许对口味和强度进行定制,展示了vaporize过程的实际应用。总之,vaporize一词指的是通过施加热量将液体转变为蒸汽的过程。这一基本过程不仅是科学理解的基石,而且在各个领域具有深远的影响,从烹饪艺术到工业制造和环境科学。通过认识到vaporize在我们世界中的重要性,我们可以更好地欣赏科学与日常生活之间的复杂联系。无论我们是在为茶煮水还是观察天空中的云,vaporize的过程始终在发挥作用,提醒我们物质和能量的动态本质。
