centrifugalized

简明释义

英[ˌsentrɪˈfjuːɡəˌlaɪz]美[ˌsentrɪˈfjuːɡəˌlaɪz]

vt. 使受离心作用

第 三 人 称 单 数 c e n t r i f u g a l i z e s

现 在 分 词 c e n t r i f u g a l i z i n g

过 去 式 c e n t r i f u g a l i z e d

过 去 分 词 c e n t r i f u g a l i z e d

英英释义

单词用法

同义词

反义词

例句

1.The leaching solution was centrifugalized, and then distilled by headspace analytical method.

浸提液离心后采用静态顶空技术处理。

2.The leaching solution was centrifugalized, and then distilled by headspace analytical method.

浸提液离心后采用静态顶空技术处理。

3.The mixture was centrifugalized to separate the heavier particles from the liquid.

混合物被离心化以分离较重的颗粒和液体。

4.After being centrifugalized, the cream rose to the top of the milk.

在被离心化后，奶油浮到了牛奶的顶部。

5.The laboratory uses a machine that centrifugalized samples for better analysis.

实验室使用一种机器来离心化样本，以便更好地分析。

6.By centrifugalized processes, we can achieve a higher purity of the substance.

通过离心化过程，我们可以获得更高纯度的物质。

7.The food processing industry often centrifugalized juices to extract pulp.

食品加工行业经常离心化果汁以提取果肉。

作文

In modern physics and engineering, the term centrifugalized refers to the process by which forces acting on an object cause it to move away from the center of rotation. This concept is crucial in various applications, including the design of centrifuges, amusement park rides, and even the way planets orbit around the sun. Understanding how objects become centrifugalized helps us grasp the principles of motion and force that govern our world. To illustrate the idea of centrifugalized, let’s consider a simple example: a child swinging a bucket of water in a circular motion. As the child swings the bucket faster, the water inside experiences a force that pushes it outward. If the speed is sufficient, the water does not fall out of the bucket despite being upside down at the top of the swing. This phenomenon occurs because the water is effectively centrifugalized—the force generated by the circular motion keeps it pressed against the bottom of the bucket. The principles of centrifugalized motion can also be seen in nature. For instance, when planets orbit the sun, they are constantly moving forward while simultaneously being pulled toward the sun by gravity. The balance between these two forces results in a stable orbit. If a planet were to lose its velocity, it would spiral inward and potentially collide with the sun. Conversely, if it were to gain excessive speed, it could escape the sun's gravitational pull altogether. This delicate balance illustrates the importance of understanding how objects can be centrifugalized in space. In engineering, the concept of centrifugalized motion is applied to create machines that can separate substances based on density. Centrifuges, for example, are used in laboratories to separate blood components or to purify chemicals. By spinning samples at high speeds, denser materials are forced outward, allowing for effective separation. The efficiency of these machines relies heavily on the principles of centrifugalized motion, showcasing how this concept is utilized in practical applications. Moreover, amusement park rides often incorporate centrifugalized forces to create thrilling experiences. Rides like the ‘Gravitron’ use rapid spinning to push riders against the walls, creating a sensation of weightlessness. Riders feel as though they are being held in place due to the centrifugalized forces acting upon them, making for an exhilarating experience. In conclusion, the term centrifugalized encompasses a fundamental concept that extends across various fields, from physics to engineering and entertainment. By understanding how forces interact to create centrifugalized motion, we can better appreciate the mechanics behind everyday phenomena and technological advancements. Whether observing the natural world or enjoying a day at the amusement park, the principles of centrifugalized motion are always at play, shaping our experiences and interactions with the environment around us.

在现代物理学和工程学中，术语centrifugalized指的是作用于物体的力量使其远离旋转中心移动的过程。这个概念在各种应用中至关重要，包括离心机的设计、游乐园的游乐设施，甚至行星围绕太阳的轨道运动。理解物体如何变得centrifugalized有助于我们掌握支配我们世界的运动和力的原理。 为了说明centrifugalized的概念，让我们考虑一个简单的例子：一个孩子在圆周运动中摇晃着一个水桶。当孩子加速摇晃水桶时，水桶内的水会感受到一种向外的力量。如果速度足够快，水在摇晃到顶部时不会从桶中洒出。这种现象发生是因为水被有效地centrifugalized——圆周运动产生的力将其压在桶底。 centrifugalized运动的原理也可以在自然界中看到。例如，当行星绕着太阳运行时，它们不断向前移动，同时又被重力拉向太阳。这两种力量之间的平衡导致了稳定的轨道。如果一颗行星失去其速度，它将螺旋向内，可能与太阳碰撞。相反，如果它获得过快的速度，就可能完全逃离太阳的引力。这种微妙的平衡说明了理解物体如何在太空中被centrifugalized的重要性。 在工程学中，centrifugalized运动的概念被应用于制造可以根据密度分离物质的机器。例如，离心机被用于实验室分离血液成分或净化化学物质。通过以高速旋转样本，较密集的材料被迫向外，使有效分离成为可能。这些机器的效率在很大程度上依赖于centrifugalized运动的原理，展示了这个概念在实际应用中的利用。 此外，游乐园的游乐设施经常利用centrifugalized力量来创造刺激的体验。像“重力轮”这样的游乐设施利用快速旋转将骑乘者推向墙壁，创造出失重的感觉。骑乘者感觉自己被由于centrifugalized力量的作用固定在原地，带来令人兴奋的体验。 总之，术语centrifugalized涵盖了一个基本概念，这个概念在物理学、工程学和娱乐等各个领域都有延伸。通过理解力量如何相互作用以创造centrifugalized运动，我们可以更好地欣赏日常现象和技术进步背后的机制。无论是在观察自然界还是享受游乐园的一天，centrifugalized运动的原理始终在发挥作用，塑造着我们与周围环境的体验和互动。