suction
简明释义
n. 吸;吸力;抽吸
第 三 人 称 单 数 s u c t i o n s
现 在 分 词 s u c t i o n i n g
过 去 式 s u c t i o n e d
过 去 分 词 s u c t i o n e d
英英释义
单词用法
抽气;吸气;空吸 | |
抽吸机;吸尘机;吸痰器;气吸式捡拾机 |
同义词
反义词
| 压力 | The pressure in the balloon increased as air was blown into it. | 随着空气被吹入气球,气球内的压力增加。 | |
| 排出 | 从腔体中排出空气创造了一个真空。 |
例句
1.This guy-calls himself "the Human Fly" -- climbed up this skyscraper with nothing but some big suction cups!
这人自称“人蝇”,只用几个大吸盘,什么别的器械也没有,就爬上这座大楼。
2.This suction effect increases wind speeds by up to 30 percent at each of the 95-foot-long rotors to boost electricity production.
这一抽吸效应使得经过每个长达95英尺的转子的时候风速增加30%,有利于电力生产。
3.As the water recedes, the strong suction of debris being pulled into large populated areas can further cause injuries.
退水时,被拖入人口十分稠密地区的残骸物件带有强劲的吸力,这可进一步带来损伤。
4.He carefully affixed its rubber suction cup to the corner of the damp window pane.
小心地把它的橡皮吸器搭上那潮湿玻璃的角落。
5.Also use between tooth seal volume change to achieve suction hydraulic oil.
也是利用齿间密封容积的变化来实现吸油压油的。
6.The suction system pulls any waste into the machine as soon as it leaves the body.
这套吸入系统把任何离开身体的垃圾尽快吸到机器里。
7.A gauge measures the pressure of the suction.
有一个测量器来测量抽的压力。
8.The cylinders spin in opposite directions, creating suction that immediately prevents eddies from forming.
气缸向相反的方向旋转,所产生的吸力立刻阻止了涡流的形成。
9.A vacuum cleaner works by generating suction 吸力 to pick up dirt and debris from the floor.
吸尘器通过产生suction 吸力来清洁地板上的灰尘和杂物。
10.The chef used a suction 吸力 device to seal the food in a bag for sous-vide cooking.
厨师使用suction 吸力设备将食物密封在袋子中以进行低温慢煮。
11.The nurse applied suction 吸力 to clear the patient's airway during the emergency.
护士在紧急情况下施加suction 吸力以清理病人的气道。
12.To drink from the straw, you need to create suction 吸力 by sucking on it.
要用吸管喝水,你需要通过吸吮来产生suction 吸力。
13.The dentist used a tool to create suction 吸力 to remove excess saliva from my mouth.
牙医使用工具产生suction 吸力以去除我口中的多余唾液。
作文
In the world of science and engineering, the concept of suction is fundamental to various applications. Suction refers to the process of creating a partial vacuum that allows fluids or gases to be drawn into a space. This principle is utilized in numerous devices and systems, making it an essential topic for students and professionals alike. Understanding suction can lead to innovations in technology and improvements in everyday life.One of the most common examples of suction in action is found in household appliances. For instance, vacuum cleaners operate based on the principle of suction. They create a low-pressure area inside the device, which allows air—and any debris within that air—to be pulled into the cleaner. This process demonstrates how suction can effectively remove dirt and dust from surfaces, showcasing its practical applications in maintaining cleanliness in our homes.In the medical field, suction plays a critical role in various procedures. Surgical teams often use suction devices to remove blood and other fluids from the surgical site, providing a clear view for the surgeons and ensuring a safe environment for the patient. The ability to control suction is vital, as it helps to minimize complications during surgeries and enhances the overall effectiveness of medical interventions.Moreover, suction is also prominent in the field of fluid dynamics. Engineers study suction to design more efficient pumps and systems. For example, in hydraulic systems, suction is employed to move liquids through pipes and machinery. By understanding the principles of suction, engineers can optimize these systems, leading to energy savings and improved performance.The natural world also exhibits fascinating examples of suction. Certain animals, such as octopuses and frogs, utilize suction to capture prey. An octopus can extend its arms and create suction to pull in small fish or crustaceans. Similarly, frogs use their tongues, which can rapidly create suction, to catch insects. These biological adaptations highlight the versatility and importance of suction in nature.In conclusion, suction is a vital concept that permeates various fields, from household chores to advanced medical procedures and engineering designs. Its ability to create a vacuum and draw in materials makes it an indispensable tool in both our daily lives and specialized applications. By grasping the principles behind suction, we can harness its power for innovation and efficiency. Whether we are cleaning our homes, performing complex surgeries, or designing cutting-edge technology, the understanding of suction will continue to play a crucial role in shaping our world. As we advance in science and technology, the potential applications of suction are bound to expand, leading to exciting discoveries and improvements in various sectors.
在科学和工程的世界中,suction(吸力)的概念对于各种应用至关重要。Suction指的是创建部分真空的过程,从而允许流体或气体被吸入一个空间。这个原理被广泛应用于众多设备和系统,使其成为学生和专业人士必学的重要课题。理解suction可以推动技术创新,并改善我们的日常生活。家庭电器中最常见的suction实例之一是吸尘器。它们基于suction的原理工作,创造出设备内部的低压区域,这使得空气——以及空气中的任何杂物——能够被吸入清洁器。这一过程展示了suction如何有效地从表面去除污垢和灰尘,体现了它在保持我们家居清洁方面的实际应用。在医疗领域,suction在各种手术中扮演着关键角色。外科团队经常使用suction设备来移除手术部位的血液和其他液体,为外科医生提供清晰的视野,并确保患者的安全。控制suction的能力至关重要,因为它有助于减少手术中的并发症,并增强医疗干预的整体效果。此外,suction在流体动力学领域也很突出。工程师研究suction以设计更高效的泵和系统。例如,在液压系统中,suction被用于通过管道和机械移动液体。通过理解suction的原理,工程师可以优化这些系统,从而实现节能和提高性能。自然界中也展现了令人着迷的suction实例。某些动物,如章鱼和青蛙,利用suction捕捉猎物。章鱼可以伸展其触手并产生suction来拉入小鱼或甲壳类动物。类似地,青蛙利用其舌头,快速产生suction来捕捉昆虫。这些生物适应性突显了suction在自然界中的多功能性和重要性。总之,suction是一个渗透到各个领域的重要概念,从家庭琐事到先进的医疗程序和工程设计。它创造真空并吸入材料的能力使其成为我们日常生活和专业应用中不可或缺的工具。通过掌握suction背后的原理,我们可以利用其力量进行创新和提高效率。无论是在清洁我们的家、进行复杂的手术,还是设计尖端科技,理解suction将继续在塑造我们的世界中发挥关键作用。随着科学和技术的发展,suction的潜在应用必将扩展,带来激动人心的发现和各个领域的改善。
