azimuth adjustment rule

简明释义

方位角修正计算尺

英英释义

例句

1.During the telescope setup, the astronomer referred to the azimuth adjustment rule for optimal viewing.

在望远镜设置过程中，天文学家参考了方位角调整规则以获得最佳观测效果。

2.The military operations manual includes a section on the azimuth adjustment rule for targeting.

军事作战手册中包括了关于方位角调整规则的部分，用于瞄准。

3.Before launching the satellite, engineers must follow the azimuth adjustment rule to ensure proper alignment.

在发射卫星之前，工程师必须遵循方位角调整规则以确保正确对齐。

4.To improve signal reception, technicians adjusted the antenna according to the azimuth adjustment rule.

为了改善信号接收，技术人员根据方位角调整规则调整了天线。

5.The azimuth adjustment rule is crucial for accurate navigation in aviation.

在航空导航中，方位角调整规则至关重要。

作文

In the field of navigation and astronomy, the concept of direction is vital. One such term that often arises in these fields is the azimuth adjustment rule, which refers to the method used to determine the angle of an object relative to true north. Understanding this rule is essential for accurate positioning and navigation, especially when utilizing compasses or telescopes. The azimuth adjustment rule allows navigators and astronomers to make precise adjustments to their instruments based on the azimuth angle, which is measured in degrees from a fixed point. The azimuth is defined as the angle between a reference direction (usually true north) and the line of sight to a target object. This measurement is crucial for several applications, including land surveying, military operations, and even in the field of meteorology. By employing the azimuth adjustment rule, one can ensure that they are accurately oriented towards their desired target, which is fundamental for successful navigation.To illustrate the importance of the azimuth adjustment rule, consider a sailor navigating through open waters. The sailor relies on a compass to determine their direction. However, due to magnetic declination, the compass may not point to true north. By applying the azimuth adjustment rule, the sailor can adjust their course based on the known declination, ensuring they are heading in the correct direction. This adjustment is not only crucial for reaching their destination but also for maintaining safety at sea.Similarly, astronomers utilize the azimuth adjustment rule when observing celestial bodies. Telescopes must be aligned precisely to track the movement of stars and planets across the night sky. By adjusting the azimuth settings according to the azimuth adjustment rule, astronomers can enhance their observations and gather accurate data about celestial phenomena.Moreover, the azimuth adjustment rule plays a significant role in modern technology. For instance, GPS systems rely on accurate positioning, which involves understanding and applying azimuth calculations. When a user inputs a destination into their GPS device, the system calculates the best route by considering various factors, including the azimuth angles of different paths. This application of the azimuth adjustment rule has revolutionized how we navigate, making it more efficient and user-friendly.In conclusion, the azimuth adjustment rule is a fundamental concept in navigation and astronomy that enables individuals to make precise directional adjustments. Whether at sea, in the sky, or using modern technology, this rule is essential for accurate positioning and successful navigation. Understanding the azimuth adjustment rule not only enhances our ability to navigate effectively but also deepens our appreciation for the intricate systems that govern our world. As we continue to explore and innovate, the principles underlying the azimuth adjustment rule will undoubtedly remain relevant in guiding us through both familiar and uncharted territories.

在导航和天文学领域，方向的概念至关重要。其中一个常出现的术语是方位角调整规则，它指的是用来确定物体相对于真北的角度的方法。理解这一规则对准确定位和导航至关重要，尤其是在使用指南针或望远镜时。方位角调整规则使导航员和天文学家能够根据方位角对他们的仪器进行精确调整，方位角是从固定点测量的度数。方位角被定义为参考方向（通常是真北）与目标物体的视线之间的角度。这一测量对于多个应用至关重要，包括土地测量、军事行动，甚至气象学领域。通过采用方位角调整规则，人们可以确保他们准确地朝向所需目标，这对于成功导航至关重要。为了说明方位角调整规则的重要性，可以考虑一位在公海航行的水手。这位水手依赖指南针来确定方向。然而，由于磁偏角，指南针可能并不指向真北。通过应用方位角调整规则，水手可以根据已知的偏角调整航向，确保他们朝着正确的方向前进。这一调整不仅对到达目的地至关重要，而且对在海上的安全维护也是如此。同样，天文学家在观察天体时也利用方位角调整规则。望远镜必须精确对准，以跟踪星星和行星在夜空中的运动。通过根据方位角调整规则调整方位设置，天文学家可以增强他们的观察效果，收集关于天体现象的准确数据。此外，方位角调整规则在现代技术中也发挥着重要作用。例如，GPS系统依赖于准确的定位，这涉及到理解和应用方位角计算。当用户在GPS设备中输入目的地时，系统会通过考虑不同路径的方位角来计算最佳路线。方位角调整规则的这一应用彻底改变了我们导航的方式，使其更加高效和用户友好。总之，方位角调整规则是导航和天文学中的基本概念，使个人能够进行精确的方向调整。无论是在海上、天空中，还是使用现代技术，这一规则对于准确定位和成功导航至关重要。理解方位角调整规则不仅增强了我们有效导航的能力，也加深了我们对支配我们世界的复杂系统的欣赏。随着我们继续探索和创新，方位角调整规则背后的原则无疑将在引导我们穿越熟悉和未知的领域时保持相关性。