maximum observation distance

简明释义

最大观测距离

英英释义

例句

1.The drone can operate effectively within a maximum observation distance of 5 kilometers.

该无人机在最大观察距离为5公里的范围内有效工作。

2.For this experiment, we need to determine the maximum observation distance for the laser beam.

在这个实验中，我们需要确定激光束的最大观察距离。

3.In this wildlife reserve, the maximum observation distance for safely viewing animals is set at 200 meters.

在这个野生动物保护区，安全观察动物的最大观察距离设定为200米。

4.The surveyor noted that the maximum observation distance for the new equipment is significantly higher than the previous model.

测量员指出，新设备的最大观察距离显著高于之前的型号。

5.The telescope has a maximum observation distance of 1000 kilometers, allowing astronomers to study distant celestial bodies.

这台望远镜的最大观察距离为1000公里，使天文学家能够研究遥远的天体。

作文

In the field of observational science, the term maximum observation distance refers to the furthest point from which an observer can effectively gather data or make measurements. This concept is crucial in various disciplines, including astronomy, wildlife studies, and environmental monitoring. Understanding the maximum observation distance is essential for researchers as it directly impacts the accuracy and reliability of their findings. For instance, in astronomy, telescopes are designed with specific parameters that dictate their maximum observation distance, allowing astronomers to observe celestial bodies millions of light-years away. If observations are made beyond this distance, the data collected may be distorted or irrelevant, leading to incorrect conclusions about the universe's structure and evolution.In wildlife studies, the maximum observation distance plays a significant role in behavioral research. Observers need to maintain a certain distance from animals to avoid disturbing their natural behavior. If the observer is too close, animals may alter their actions, resulting in skewed data. Therefore, determining the appropriate maximum observation distance is vital for obtaining authentic insights into animal behavior, migration patterns, and habitat use. Researchers often use binoculars or remote cameras to extend their maximum observation distance while minimizing disturbance.Environmental monitoring also relies heavily on understanding the maximum observation distance. For example, when assessing air quality or pollution levels, scientists must choose monitoring stations that are strategically placed within the maximum observation distance of potential pollution sources. This ensures accurate readings that reflect the true environmental conditions. If the monitoring stations are too far away, they may not capture the full extent of pollution's impact, leading to ineffective policy decisions.Moreover, the maximum observation distance can vary based on several factors, including the observer's equipment, environmental conditions, and the nature of what is being observed. Technological advancements have significantly increased the maximum observation distance in many fields. For example, modern telescopes equipped with advanced sensors can detect light from distant galaxies that were previously unreachable. Similarly, drones equipped with high-resolution cameras can monitor wildlife from greater distances than traditional methods.In conclusion, the concept of maximum observation distance is integral to various scientific fields. It shapes how researchers design their studies, collect data, and interpret results. By understanding and applying the principles surrounding the maximum observation distance, scientists can enhance the quality of their research and contribute valuable knowledge to their respective fields. As technology continues to evolve, the maximum observation distance will likely expand, opening new avenues for discovery and understanding in the natural world.

在观察科学领域，术语最大观察距离指的是观察者能够有效收集数据或进行测量的最远点。这个概念在多个学科中至关重要，包括天文学、野生动物研究和环境监测。理解最大观察距离对研究人员至关重要，因为它直接影响到他们发现的准确性和可靠性。例如，在天文学中，望远镜的设计具有特定参数，这些参数决定了它们的最大观察距离，使天文学家能够观察到数百万光年之外的天体。如果在此距离之外进行观察，所收集的数据可能会失真或无关，从而导致对宇宙结构和演化的错误结论。在野生动物研究中，最大观察距离在行为研究中发挥着重要作用。观察者需要与动物保持一定距离，以避免干扰它们的自然行为。如果观察者太近，动物可能会改变其行为，导致数据偏差。因此，确定适当的最大观察距离对于获取动物行为、迁徙模式和栖息地使用的真实见解至关重要。研究人员通常使用双筒望远镜或远程摄像头来延长他们的最大观察距离，同时尽量减少干扰。环境监测也严重依赖于对最大观察距离的理解。例如，在评估空气质量或污染水平时，科学家必须选择战略性地放置在潜在污染源的最大观察距离内的监测站。这确保了反映真实环境条件的准确读数。如果监测站距离太远，可能无法捕捉污染影响的全部范围，导致政策决策无效。此外，最大观察距离可能会因多个因素而异，包括观察者的设备、环境条件以及观察对象的性质。技术进步大大增加了许多领域的最大观察距离。例如，配备先进传感器的现代望远镜可以检测到来自远处星系的光线，这在以前是无法达到的。同样，配备高分辨率摄像头的无人机可以比传统方法更远地监测野生动物。总之，最大观察距离的概念是各种科学领域不可或缺的一部分。它塑造了研究人员设计研究、收集数据和解释结果的方式。通过理解和应用围绕最大观察距离的原则，科学家可以提高研究的质量，并为各自领域贡献有价值的知识。随着技术的不断发展，最大观察距离可能会扩大，为自然世界的发现和理解开辟新的途径。