vibratile

简明释义

[ˈvaɪbrətaɪl][ˈvaɪbrətɪl]

adj. 颤动的;振动的;可振动的

英英释义

Having the ability to vibrate or move rapidly back and forth.

具有振动或快速前后移动的能力。

Relating to structures or organs that are capable of producing vibrations.

与能够产生振动的结构或器官有关。

单词用法

vibratile structures

振动结构

vibratile movements

振动运动

vibratile cilia

振动纤毛

vibratile organs

振动器官

vibratile appendages

振动附肢

vibratile cells

振动细胞

同义词

vibrating

振动的

The vibrating phone alerted him to the incoming message.

震动的手机提醒他有新消息。

oscillating

摆动的

The oscillating fan provided a cool breeze on a hot day.

摆动的风扇在炎热的日子里带来了凉爽的微风。

quivering

颤动的

The quivering leaves signaled the arrival of the wind.

颤动的树叶预示着风的到来。

trembling

颤抖的

She felt a trembling in her hands as she prepared to speak.

她在准备发言时感到手在颤抖。

反义词

stationary

静止的

The vehicle remained stationary at the traffic light.

车辆在红绿灯前保持静止。

immobile

不能移动的

Due to the storm, the ship was immobile in the harbor.

由于风暴,船只在港口无法移动。

例句

1.It is indicated by test that the effect of step type variable parameter vibratile drilling is more superior than that of common drilling at corresponding conditions.

实验得出,阶跃式变参数振动钻削效果明显优于相应条件下的普通钻削。

2.A kind true with life of actor of a kind of folk vibratile.

一种真实和一种民间艺人生命的颤抖。

3.On the basis of optimized vibratile drilling mono -material test, the optimized value variable parameter is selected for vibratile drilling test of two kinds laminated materials.

在单材料优化振动钻削实验的基础上,进行了两种叠层材料按优化值变参数的振动钻削实验。

4.It is indicated by test that the effect of step type variable parameter vibratile drilling is more superior than tha...

实验得出,阶跃式变参数振动钻削效果明显优于相应条件下的普通钻削。

5.In order to deal with the security of SIFANG CITY under vibratile load of busses, this paper does a simulative analysis for it with ANSYS.

文章针对明孝陵四方城在车辆振动荷载下的安全性问题,应用有限元软件ANSYS进行了数值模拟分析。

6.On the basis of optimized vibratile drilling mono -material test, the optimized value variable parameter is selected for vibratile drilling test of two kinds laminated materials.

在单材料优化振动钻削实验的基础上,进行了两种叠层材料按优化值变参数的振动钻削实验。

7.On the basis of optimized vibratile drilling mono-material test, the optimized value variable parameter is selected for vibratile drilling tesl of two kinds laminated materials.

在单材料优化振动钻削实验的基础上,进行了两种叠层材料按优化值变参数的振动钻削实验。

8.The laminated material is an advanced compound material. A new vibratile drilling technology with step type variable parameter is suitable IC process the new laminated material.

叠层材料是一种先进的复合材料,阶跃式变参数振动钻削新工艺最适合于加工新型叠层材料。

9.The acting force and motion of vibratile tumbling machine are analysed theoretically.

对振动光饰机的受力和运动进行理论分析。

10.Some fish have vibratile 振动的 fins that allow them to maneuver quickly in water.

一些鱼类拥有vibratile 振动的 鳍,能让它们在水中快速机动。

11.In aquatic environments, many organisms use vibratile 振动的 appendages for locomotion.

在水生环境中,许多生物使用vibratile 振动的 附肢进行移动。

12.The vibratile 振动的 motion of the flagella helps bacteria swim efficiently.

鞭毛的vibratile 振动的 动作帮助细菌高效游动。

13.The vibratile 振动的 structures in the insect's wings create sound during flight.

昆虫翅膀中的vibratile 振动的 结构在飞行时产生声音。

14.The scientist observed the vibratile 振动的 cilia of the microorganism under the microscope.

科学家在显微镜下观察了微生物的vibratile 振动的 纤毛。

作文

In the fascinating world of biology, many terms describe the unique characteristics of living organisms. One such term is vibratile, which refers to structures that are capable of vibrating or oscillating. This characteristic is often seen in various forms of life, from microscopic organisms to larger animals. Understanding the concept of vibratile structures can help us appreciate the complexity and adaptability of life on Earth.For instance, consider the cilia found on the surface of certain protists. These tiny, hair-like projections are vibratile in nature, allowing the organism to move through water with remarkable agility. The coordinated beating of these cilia not only propels the organism forward but also helps in feeding by creating water currents that bring food particles closer. This example illustrates how vibratile structures play a crucial role in the survival of these microorganisms, enabling them to thrive in their aquatic environments.Similarly, in the animal kingdom, we find vibratile features in the form of the wings of insects. Many insects, such as bees and butterflies, possess wings that can vibrate rapidly. This vibration is essential for flight, as it generates lift and allows these creatures to navigate through the air efficiently. Furthermore, the sound produced by the rapid movement of wings is often used for communication during mating rituals or territorial disputes. Thus, the vibratile nature of insect wings exemplifies the intricate relationship between structure and function in the animal world.The concept of vibratile extends beyond just movement; it also encompasses sensory functions. For example, some species of fish have specialized lateral lines, which are vibratile sensory organs that detect vibrations in the water. These organs allow fish to sense the presence of predators or prey, even in murky waters where visibility is low. By interpreting these vibrations, fish can make quick decisions that enhance their chances of survival. This highlights how vibratile structures can be integral to an organism's ability to interact with its environment.In addition to the biological implications, the study of vibratile structures has inspired advancements in technology. Engineers and scientists have looked to nature for inspiration, developing devices that mimic the vibratile mechanisms found in living organisms. For example, robotic systems that utilize vibrating components can achieve greater flexibility and efficiency in movement, much like the cilia of a protist or the wings of an insect. This biomimicry showcases how understanding vibratile structures can lead to innovative solutions in engineering and design.In conclusion, the term vibratile encompasses a wide range of structures and functions within the biological realm. From the microscopic cilia of protists to the wings of insects and the sensory systems of fish, vibratile features play a vital role in the survival and adaptation of various species. Moreover, the insights gained from studying these structures have significant implications for technology and engineering. As we continue to explore the wonders of the natural world, the concept of vibratile will undoubtedly remain a key area of interest, bridging the gap between biology and innovation.

在生物学的迷人世界中,许多术语描述了生物体独特的特征。其中一个术语是vibratile,指的是能够振动或摆动的结构。这种特性通常出现在从微观生物到较大动物的各种生命形式中。理解vibratile结构的概念可以帮助我们欣赏地球上生命的复杂性和适应性。例如,考虑某些原生生物表面上的纤毛。这些微小的、像毛发一样的突起在本质上是vibratile的,使生物能够以惊人的灵活性在水中移动。这些纤毛的协调拍打不仅推动生物向前移动,还通过产生水流来帮助进食,从而将食物颗粒拉近。这个例子说明了vibratile结构在这些微生物生存中的关键作用,使它们能够在水生环境中茁壮成长。同样,在动物王国中,我们发现了以昆虫翅膀形式存在的vibratile特征。许多昆虫,如蜜蜂和蝴蝶,拥有能够快速振动的翅膀。这种振动对于飞行至关重要,因为它产生升力,使这些生物能够高效地在空气中导航。此外,翅膀快速运动产生的声音通常用于交配仪式或领土争斗中的交流。因此,昆虫翅膀的vibratile特性展示了生物世界中结构与功能之间的复杂关系。vibratile的概念不仅仅局限于运动;它还包括感官功能。例如,一些鱼类具有特殊的侧线,这些是vibratile感官器官,可以检测水中的振动。这些器官使鱼能够感知捕食者或猎物的存在,即使在能见度低的浑浊水域中。通过解读这些振动,鱼能够做出快速决策,从而提高其生存机会。这突显了vibratile结构在生物与环境互动中的重要性。除了生物学的影响外,对vibratile结构的研究也激发了技术的进步。工程师和科学家从自然界中寻找灵感,开发出模仿生物体内的vibratile机制的设备。例如,利用振动部件的机器人系统能够实现更大的灵活性和运动效率,就像原生生物的纤毛或昆虫的翅膀一样。这种仿生学展示了理解vibratile结构如何为工程和设计提供创新解决方案。总之,vibratile这一术语涵盖了生物领域内广泛的结构和功能。从原生生物的微观纤毛到昆虫的翅膀,再到鱼类的感官系统,vibratile特征在各种物种的生存和适应中发挥着至关重要的作用。此外,从研究这些结构中获得的见解对技术和工程具有重大意义。随着我们继续探索自然界的奇迹,vibratile的概念无疑将成为一个关键的研究领域,架起生物学与创新之间的桥梁。