built-in oscillation

简明释义

固有振荡

英英释义

例句

1.This drone is equipped with a built-in oscillation feature that stabilizes its flight.

这款无人机配备了一个内置振荡特性，稳定其飞行。

2.Our latest model of the smartwatch includes a built-in oscillation sensor for more accurate heart rate monitoring.

我们最新型号的智能手表包括一个内置振荡传感器，以便更准确地监测心率。

3.The fan's built-in oscillation function allows it to cover a wider area.

风扇的内置振荡功能使其能够覆盖更广泛的区域。

4.The new speaker features a built-in oscillation mechanism that enhances sound quality.

这款新扬声器具有一个内置振荡机制，可以增强音质。

5.The heating system utilizes built-in oscillation to distribute heat evenly throughout the room.

该加热系统利用内置振荡在整个房间均匀分配热量。

作文

In the realm of modern technology, the term built-in oscillation refers to a feature that is integrated within a device or system, allowing it to produce periodic variations in its output or function. This concept is prevalent in various applications, including electronics, engineering, and even biological systems. Understanding built-in oscillation can provide insights into how devices operate and improve their efficiency. One of the most common examples of built-in oscillation can be found in quartz watches. These timepieces utilize a quartz crystal that oscillates at a precise frequency when an electric current is applied. The built-in oscillation of the quartz crystal ensures that the watch keeps accurate time, making it a reliable tool for everyday use. This phenomenon illustrates how built-in oscillation can enhance the functionality of a product by providing stability and precision.In the field of engineering, built-in oscillation plays a crucial role in the design of various mechanical systems. For instance, in the automotive industry, engineers often incorporate oscillatory mechanisms to improve the performance of engines and suspension systems. These systems rely on the principles of built-in oscillation to absorb shocks and vibrations, ultimately leading to a smoother driving experience. By understanding how built-in oscillation works, engineers can create more efficient and durable vehicles that meet the demands of consumers.Moreover, built-in oscillation is not limited to mechanical and electronic devices; it can also be observed in biological systems. For example, the rhythmic beating of the heart is a form of built-in oscillation that is essential for maintaining life. The heart's ability to contract and relax in a regular pattern ensures that blood circulates effectively throughout the body. This biological built-in oscillation is a testament to the importance of oscillatory behavior in sustaining life and health.In addition to its practical applications, built-in oscillation has implications for research and development. Scientists and engineers are continually exploring new ways to harness this phenomenon for innovative solutions. For instance, researchers are investigating how built-in oscillation can be utilized in renewable energy systems, such as wind turbines and solar panels, to optimize energy generation. By leveraging the principles of built-in oscillation, these technologies can become more efficient and sustainable, contributing to a greener future.In conclusion, the concept of built-in oscillation is integral to various fields, from consumer electronics to mechanical engineering and biological systems. Its ability to create periodic variations enhances the functionality and efficiency of devices and systems. As technology continues to advance, understanding and applying the principles of built-in oscillation will be crucial in developing innovative solutions that meet the challenges of our time. Whether in watches, vehicles, or even the human body, built-in oscillation remains a fundamental aspect of how we understand and interact with the world around us.

在现代科技领域，术语内置振荡指的是一种集成在设备或系统内部的特性，使其能够产生周期性的输出或功能变化。这个概念在电子、工程甚至生物系统等各种应用中都很普遍。理解内置振荡可以提供关于设备如何操作及提高其效率的见解。最常见的内置振荡例子可以在石英手表中找到。这些时计利用石英晶体，当施加电流时，晶体会以精确的频率振荡。石英晶体的内置振荡确保手表保持准确的时间，使其成为日常使用的可靠工具。这一现象说明了内置振荡如何通过提供稳定性和精确性来增强产品的功能。在工程领域，内置振荡在各种机械系统的设计中发挥着至关重要的作用。例如，在汽车工业中，工程师们通常将振荡机制集成到发动机和悬挂系统中，以改善性能。这些系统依赖于内置振荡的原理来吸收冲击和振动，最终带来更平稳的驾驶体验。通过理解内置振荡的工作原理，工程师们可以创造出更高效、更耐用的车辆，以满足消费者的需求。此外，内置振荡不仅限于机械和电子设备；它也可以在生物系统中观察到。例如，心脏的有节奏跳动就是一种内置振荡，对于维持生命至关重要。心脏以规律的模式收缩和放松，确保血液有效循环到全身。这种生物学上的内置振荡证明了振荡行为在维持生命和健康中的重要性。除了其实际应用外，内置振荡对研究和开发也有影响。科学家和工程师们不断探索利用这一现象的创新解决方案。例如，研究人员正在调查如何在可再生能源系统（如风力涡轮机和太阳能电池板）中利用内置振荡来优化能源生成。通过利用内置振荡的原理，这些技术可以变得更加高效和可持续，为绿色未来做出贡献。总之，内置振荡的概念在多个领域中都是不可或缺的，从消费电子到机械工程以及生物系统。其产生周期性变化的能力增强了设备和系统的功能性和效率。随着科技的不断进步，理解和应用内置振荡的原理将在开发应对我们时代挑战的创新解决方案中发挥关键作用。无论是在手表、车辆，还是在人体中，内置振荡仍然是我们理解和与周围世界互动的基本方面。