principle of operation

简明释义

工作原理

英英释义

例句

1.The technician demonstrated the principle of operation 操作原理 of the HVAC system to the trainees.

技术员向受训者演示了HVAC系统的操作原理。

2.The engineer explained the principle of operation 操作原理 of the new engine design during the presentation.

工程师在演示中解释了新发动机设计的操作原理。

3.In physics class, we learned about the principle of operation 操作原理 behind simple machines.

在物理课上，我们学习了简单机械的操作原理。

4.The manual provides a detailed description of the principle of operation 操作原理 for the washing machine.

手册详细描述了洗衣机的操作原理。

5.Understanding the principle of operation 操作原理 is crucial for troubleshooting electronic devices.

理解操作原理对于故障排除电子设备至关重要。

作文

The concept of the principle of operation is fundamental in understanding how various systems and devices function. In essence, it refers to the underlying rules or mechanisms that dictate how something works. This principle can be applied across a wide range of fields, including engineering, physics, and even everyday technology. For instance, when we consider a simple machine like a lever, the principle of operation involves the relationship between the effort applied, the load being moved, and the distance from the fulcrum. By grasping this principle, one can effectively use the lever to lift heavy objects with minimal effort. In the realm of electronics, the principle of operation becomes even more critical. Take a transistor, for example. The principle of operation of a transistor is based on the control of current flow through semiconductor materials. Understanding this principle allows engineers to design complex circuits that can amplify signals or switch electronic signals on and off. Without a solid grasp of the principle of operation, it would be nearly impossible to innovate in the field of electronics. Moreover, the principle of operation is not limited to mechanical and electronic systems; it also extends to biological systems. For example, the human heart operates based on specific physiological principles that govern blood circulation. The principle of operation here involves the rhythmic contraction and relaxation of heart muscles, which ensures that blood is pumped efficiently throughout the body. Understanding these principles is crucial for medical professionals who aim to diagnose and treat cardiovascular diseases. In education, teaching students about the principle of operation of various concepts can enhance their learning experience. For instance, when students learn about the principle of operation of photosynthesis, they gain insights into how plants convert sunlight into energy. This knowledge not only fosters a deeper appreciation for nature but also highlights the interconnectedness of life on Earth. Furthermore, the principle of operation can also play a significant role in problem-solving. When faced with a challenge, whether it be in science, mathematics, or even daily life, identifying the principle of operation behind the issue can lead to effective solutions. For example, if a student struggles with a math problem, understanding the principle of operation behind the mathematical concept can help them apply the right methods to find the answer. In conclusion, the principle of operation is an essential concept that permeates various aspects of life. Whether in technology, biology, education, or problem-solving, understanding the underlying principles that govern operations can lead to greater innovation, efficiency, and comprehension. By emphasizing the importance of the principle of operation, we can encourage a mindset that values inquiry, exploration, and a deeper understanding of the world around us.

“操作原理”这一概念在理解各种系统和设备的功能时至关重要。它本质上指的是支配某物工作方式的基本规则或机制。这个原理可以应用于多个领域，包括工程、物理学，甚至日常技术。例如，当我们考虑一个简单的机器如杠杆时，“操作原理”涉及施加的力、被移动的负载以及距离支点的关系。通过掌握这一原理，人们可以有效地使用杠杆以最小的努力举起重物。在电子学领域，“操作原理”显得尤为重要。以晶体管为例，晶体管的“操作原理”基于对半导体材料中电流流动的控制。理解这一原理使工程师能够设计复杂的电路，可以放大信号或开关电子信号。如果没有对“操作原理”的深刻理解，在电子领域进行创新几乎是不可能的。此外，“操作原理”不仅限于机械和电子系统，它还扩展到生物系统。例如，人类心脏的运作基于特定的生理原理，这些原理支配着血液循环。在这里，“操作原理”涉及心肌的节律性收缩和放松，确保血液有效地泵送到全身。理解这些原理对于希望诊断和治疗心血管疾病的医疗专业人员至关重要。在教育中，向学生教授各种概念的“操作原理”可以增强他们的学习体验。例如，当学生了解光合作用的“操作原理”时，他们对植物如何将阳光转化为能量有了更深入的认识。这一知识不仅培养了对自然的更深刻欣赏，也突显了地球上生命的相互联系。此外，“操作原理”在解决问题中也可以发挥重要作用。当面临挑战时，无论是科学、数学还是日常生活，识别出问题背后的“操作原理”可以导致有效的解决方案。例如，如果一个学生在解决数学问题时遇到困难，理解该数学概念的“操作原理”可以帮助他们应用正确的方法找到答案。总之，“操作原理”是一个渗透生活各个方面的重要概念。无论是在技术、生物学、教育还是解决问题方面，理解支配操作的基本原理可以带来更大的创新、高效和理解。通过强调“操作原理”的重要性，我们可以鼓励一种重视探究、探索和更深刻理解周围世界的思维方式。