fine regulation

简明释义

细调

英英释义

例句

1.In robotics, fine regulation of motor speed is crucial for precise movements.

在机器人技术中，电机速度的精细调节对于精确运动至关重要。

2.The artist achieved fine regulation of color tones in her painting.

这位艺术家在她的画作中实现了颜色色调的精细调节。

3.The laboratory requires a fine regulation of temperature to ensure accurate experimental results.

该实验室需要对温度进行精细调节以确保实验结果的准确性。

4.The new thermostat offers fine regulation of heating levels for optimal comfort.

新型恒温器提供了加热水平的精细调节，以实现最佳舒适度。

5.Farmers use fine regulation of water supply to optimize crop growth.

农民利用水供应的精细调节来优化作物生长。

作文

In the realm of biology, the concept of homeostasis plays a crucial role in maintaining the internal balance necessary for survival. One of the key mechanisms that organisms utilize to achieve this balance is through what can be described as fine regulation. This term refers to the precise adjustments made by biological systems to maintain optimal conditions despite external fluctuations. For instance, in humans, the regulation of body temperature is a prime example of fine regulation. When the external temperature rises, our bodies respond by sweating, which cools us down through evaporation. Conversely, when it gets cold, we shiver to generate heat, showcasing the body's ability to finely tune its responses to environmental changes.The importance of fine regulation extends beyond just temperature control. Hormonal regulation is another area where this concept is evident. The endocrine system releases hormones in very specific amounts to regulate processes such as metabolism, growth, and mood. For example, insulin is secreted by the pancreas to manage blood sugar levels. If the secretion is too high or too low, it can lead to serious health issues like diabetes. Thus, the fine regulation of insulin is critical for maintaining overall health and well-being.Moreover, fine regulation is not limited to physiological processes; it also plays a significant role in ecological systems. In nature, various species interact with one another in complex ways that require precise adjustments to maintain balance within ecosystems. Predators and prey, for example, are part of a dynamic system where the population sizes must be finely regulated. If one species overpopulates, it can lead to a depletion of resources, which in turn affects other species. Therefore, the fine regulation of these interactions is essential for the sustainability of ecosystems.In the context of technology and engineering, fine regulation is equally important. For example, in automated systems, algorithms are designed to make small adjustments based on real-time data to ensure optimal performance. In manufacturing, machines must be finely regulated to produce components that meet strict specifications. Any deviation can lead to defects, highlighting the necessity of fine regulation in achieving quality control.In conclusion, the concept of fine regulation is fundamental across various fields, from biology and ecology to technology and engineering. It represents the delicate balance that systems must maintain to function effectively. Understanding and applying the principles of fine regulation can lead to better health outcomes, more sustainable ecosystems, and improved technological advancements. As we continue to explore the intricacies of both natural and artificial systems, the significance of fine regulation will undoubtedly remain a focal point in our quest for knowledge and innovation.

在生物学领域，体内平衡的概念在维持生存所需的内部平衡中发挥着至关重要的作用。生物体为实现这种平衡而利用的关键机制之一可以被描述为精细调节。这个术语指的是生物系统为了维持最佳条件而进行的精确调整，尽管外部环境波动。例如，在人类中，体温的调节就是精细调节的一个典型例子。当外部温度升高时，我们的身体通过出汗来响应，这通过蒸发使我们降温。相反，当天气变冷时，我们会颤抖以产生热量，展示了身体对环境变化的微调能力。精细调节的重要性不仅限于温度控制。激素调节是另一个明显体现这一概念的领域。内分泌系统以非常特定的量释放激素，以调节代谢、成长和情绪等过程。例如，胰腺分泌胰岛素以管理血糖水平。如果分泌过高或过低，可能导致严重的健康问题，如糖尿病。因此，胰岛素的精细调节对于维持整体健康和福祉至关重要。此外，精细调节不仅限于生理过程；它在生态系统中也起着重要作用。在自然界中，各种物种之间的相互作用以复杂的方式进行，需要精确的调整以维持生态系统的平衡。捕食者和猎物就是一个动态系统的一部分，其中种群规模必须经过精细调节。如果一种物种过度繁殖，可能导致资源枯竭，进而影响其他物种。因此，这些相互作用的精细调节对于生态系统的可持续性至关重要。在技术和工程的背景下，精细调节同样重要。例如，在自动化系统中，算法被设计成根据实时数据进行小幅调整，以确保最佳性能。在制造业中，机器必须经过精细调节，以生产符合严格规格的组件。任何偏差都可能导致缺陷，这突显了在实现质量控制中精细调节的必要性。总之，精细调节的概念在生物学、生态学到技术和工程等各个领域都是基础。它代表了系统必须保持的微妙平衡，以有效运作。理解和应用精细调节的原则可以导致更好的健康结果、更可持续的生态系统和更先进的技术发展。随着我们继续探索自然和人工系统的复杂性，精细调节的重要性无疑将继续成为我们追求知识和创新的焦点。