cryophorus

简明释义

英[ˈkraɪəˌfɔrəs]美[ˈkraɪəˌfɔrəs]

n. 冰凝器

英英释义

单词用法

同义词

反义词

例句

1.Describes the revamping process of PLC system on the protector of screw cryophorus.

详细介绍PLC系统在螺杆冰机保护装置上的改造过程及生产运行情况。

2.Describes the revamping process of PLC system on the protector of screw cryophorus.

详细介绍PLC系统在螺杆冰机保护装置上的改造过程及生产运行情况。

3.The scientist demonstrated the function of a cryophorus 冷却器 in the lab to illustrate how it can create low temperatures.

科学家在实验室演示了cryophorus 冷却器的功能，以说明它如何产生低温。

4.Using a cryophorus 冷却器, they were able to freeze small samples of liquid nitrogen for their experiments.

他们利用cryophorus 冷却器，成功地将小样本的液氮冻结用于实验。

5.In physics class, we learned about the properties of a cryophorus 冷却器 and how it demonstrates the principles of thermodynamics.

在物理课上，我们学习了cryophorus 冷却器的特性以及它如何展示热力学原理。

6.The cryophorus 冷却器 is often used in chemistry labs to create controlled environments for reactions.

在化学实验室中，cryophorus 冷却器常用于为反应创造受控环境。

7.When studying phase transitions, the cryophorus 冷却器 provides a practical example of how substances change states.

在研究相变时，cryophorus 冷却器提供了一个实际例子，说明物质如何改变状态。

作文

The study of physics often introduces students to fascinating concepts and devices that illustrate the principles of thermodynamics. One such device is the cryophorus, which is a remarkable invention used to demonstrate the phenomenon of sublimation and the principles of heat transfer. The word cryophorus comes from the Greek words 'kryos', meaning cold, and 'phoros', meaning bearer. Essentially, it is a 'cold bearer' that allows us to observe how substances can change states under varying temperature conditions. The cryophorus consists of a glass tube with two bulbs connected by a narrow neck. One bulb is filled with a liquid, typically water or alcohol, while the other is left empty. When the liquid in the first bulb is cooled, it creates a low-pressure environment in the second bulb due to the condensation of vapor. This results in a decrease in temperature in the second bulb, allowing for the observation of ice forming on the outer surface of the glass, even at room temperature. This intriguing process demonstrates how heat can be transferred and how pressure influences the state of matter. Understanding the workings of the cryophorus provides insight into the broader principles of thermodynamics. For instance, it exemplifies how heat moves from warmer areas to cooler ones, a fundamental concept in physics. Furthermore, it shows the relationship between pressure and temperature, particularly in gases. As the pressure decreases in the second bulb, the boiling point of the liquid also decreases, leading to the formation of ice without the need for external freezing conditions. In practical applications, the cryophorus serves as an educational tool in classrooms, helping students visualize and comprehend complex scientific theories. It is particularly effective in demonstrating the phase changes of matter and the laws of thermodynamics in a tangible way. Students can engage with the device, observing firsthand how temperature and pressure interact to create different states of matter. This hands-on experience reinforces theoretical knowledge and fosters a deeper understanding of physical science. Moreover, the cryophorus has historical significance in the advancement of scientific knowledge. It was invented in the early 19th century by the French physicist Jean-Baptiste Van Helmont, who utilized it to explore the properties of gases and liquids. Its invention marked a significant step in the study of thermodynamics, paving the way for further discoveries in the field. The cryophorus not only illustrates fundamental principles but also symbolizes the spirit of inquiry and experimentation that drives scientific progress. In conclusion, the cryophorus is more than just a scientific instrument; it embodies the essence of scientific exploration. By studying this device, we gain a greater appreciation for the intricate relationships between temperature, pressure, and the states of matter. The ability to witness the formation of ice in a controlled environment challenges our understanding of natural processes and invites us to delve deeper into the world of physics. As we continue to explore the mysteries of the universe, devices like the cryophorus remind us of the beauty and complexity of the scientific principles that govern our reality.

物理学的研究常常向学生介绍一些迷人的概念和装置，这些概念和装置展示了热力学原理。其中一个这样的装置是cryophorus，这是一种出色的发明，用于演示升华现象和热传递原理。cryophorus这个词来自希腊语，‘kryos’意为冷，‘phoros’意为承载者。它本质上是一个“冷的承载者”，使我们能够观察在不同温度条件下物质如何改变状态。 cryophorus由一根连接着两个球体的玻璃管组成，一个球体充满液体，通常是水或酒精，而另一个则是空的。当第一个球体中的液体被冷却时，由于蒸汽的冷凝，第二个球体内会形成低压环境。这导致第二个球体的温度降低，使我们可以观察到即使在室温下，冰也会在玻璃的外表面形成。这一引人入胜的过程展示了热量如何被转移，以及压力如何影响物质的状态。 理解cryophorus的工作原理提供了对热力学更广泛原理的深入了解。例如，它说明了热量如何从较温暖的区域移动到较凉爽的区域，这是物理学中的基本概念。此外，它还展示了气体中压力与温度之间的关系。当第二个球体的压力降低时，液体的沸点也会降低，从而导致在没有外部冷冻条件的情况下形成冰。 在实际应用中，cryophorus作为教室中的教育工具，帮助学生可视化和理解复杂的科学理论。它在展示物质的相变和热力学定律方面特别有效。学生们可以与该装置进行互动，亲眼观察温度和压力如何相互作用以创造不同的物质状态。这种动手体验巩固了理论知识，促进了对物理科学的更深刻理解。 此外，cryophorus在科学知识的发展中具有历史意义。它是在19世纪初由法国物理学家让-巴蒂斯特·范赫尔蒙特发明的，他利用它探索气体和液体的性质。它的发明标志着热力学研究的重要一步，为该领域的进一步发现铺平了道路。cryophorus不仅说明了基本原理，而且象征着推动科学进步的探索和实验精神。 总之，cryophorus不仅仅是一个科学仪器；它体现了科学探索的本质。通过研究这一装置，我们更能欣赏温度、压力和物质状态之间错综复杂的关系。在受控环境中目睹冰的形成挑战了我们对自然过程的理解，并邀请我们更深入地探讨物理世界。随着我们继续探索宇宙的奥秘，像cryophorus这样的装置提醒我们科学原理的美丽和复杂性，这些原理支配着我们的现实。