time and altitude azimuth

简明释义

时间高度求方位角法

英英释义

例句

1.Astronomers often use time and altitude azimuth 时间和高度方位角 to track the movement of planets across the night sky.

天文学家常常使用时间和高度方位角 时间和高度方位角来追踪行星在夜空中的运动。

2.In aviation, pilots must be familiar with time and altitude azimuth 时间和高度方位角 for navigation during flights.

在航空中，飞行员必须熟悉时间和高度方位角 时间和高度方位角以便在飞行中导航。

3.To accurately navigate the stars, sailors must calculate the time and altitude azimuth 时间和高度方位角 of celestial bodies.

为了准确导航星星，水手必须计算天体的时间和高度方位角 时间和高度方位角。

4.The observatory uses time and altitude azimuth 时间和高度方位角 to position telescopes correctly for stargazing.

天文台使用时间和高度方位角 时间和高度方位角来正确定位望远镜，以便观星。

5.Understanding time and altitude azimuth 时间和高度方位角 is crucial for accurate satellite tracking.

理解时间和高度方位角 时间和高度方位角对于准确的卫星跟踪至关重要。

作文

Understanding the concept of time and altitude azimuth is crucial for various fields, including astronomy, navigation, and even photography. The term time and altitude azimuth refers to a system that helps in determining the position of celestial bodies in the sky based on the time of observation and their angular distance from the observer's horizon. In simpler terms, it combines the time of day with the angle at which an object appears above the horizon (altitude) and the direction along the horizon (azimuth). This understanding is not just theoretical; it has practical applications in our daily lives.For instance, amateur astronomers often rely on time and altitude azimuth when planning their stargazing activities. By knowing the precise time and the corresponding altitude and azimuth of planets or stars, they can locate these celestial objects more easily. This becomes particularly important during events like meteor showers or eclipses, where timing is critical for optimal viewing.Moreover, sailors have historically used the concept of time and altitude azimuth for navigation. By measuring the altitude of the sun or stars at a specific time, they can determine their latitude and longitude, which are essential for charting their course across the ocean. This method of navigation, known as celestial navigation, relies heavily on accurate calculations involving time and altitude azimuth.In the realm of photography, understanding time and altitude azimuth can enhance the quality of landscape images. Photographers often consider the position of the sun and moon in relation to their shooting location. By knowing the altitude and azimuth of these celestial bodies at different times of the day, photographers can plan their shoots to capture the best natural lighting conditions.The significance of time and altitude azimuth extends beyond these examples. It plays a vital role in scientific research, particularly in fields like astrophysics and meteorology. Scientists use sophisticated instruments to measure the altitude and azimuth of satellites and other celestial phenomena to gather data that can lead to groundbreaking discoveries.Furthermore, the concept of time and altitude azimuth is integral to modern technology, including GPS systems and mobile applications that provide real-time location services. These technologies often incorporate astronomical data to enhance their accuracy and reliability. For example, augmented reality apps that overlay information about stars and constellations rely on the principles of time and altitude azimuth to function correctly.In conclusion, the understanding of time and altitude azimuth is not confined to theoretical knowledge; it has vast practical implications across various domains. From astronomy and navigation to photography and technology, this concept enriches our ability to interact with the world around us. As we continue to explore the universe and develop new technologies, the principles of time and altitude azimuth will remain fundamental to our endeavors, shaping how we understand and navigate our environment.

理解时间和高度方位角的概念对于天文学、导航甚至摄影等多个领域至关重要。术语时间和高度方位角指的是一种系统，帮助确定天体在天空中的位置，基于观察时间和它们相对于观察者地平线的角度距离。简单来说，它将一天中的时间与物体在地平线上方的角度（高度）和沿地平线的方向（方位角）结合起来。这种理解不仅仅是理论上的；它在我们的日常生活中有实际应用。例如，业余天文学家通常依赖时间和高度方位角来规划他们的观星活动。通过知道确切的时间以及相应的天体或星星的高度和方位角，他们可以更容易地找到这些天体。在流星雨或日食等事件中，这一点尤为重要，因为时机对于最佳观看至关重要。此外，水手们历史上也使用时间和高度方位角进行导航。通过在特定时间测量太阳或星星的高度，他们可以确定自己的纬度和经度，这对于在海洋上规划航线至关重要。这种导航方法被称为天文导航，重度依赖于涉及时间和高度方位角的准确计算。在摄影领域，理解时间和高度方位角可以提高风景照片的质量。摄影师通常会考虑太阳和月亮相对于拍摄地点的位置。通过了解这些天体在一天中不同时间的高度和方位角，摄影师可以规划拍摄，以捕捉最佳自然光照条件。时间和高度方位角的重要性超出了这些例子。它在科学研究中发挥着至关重要的作用，尤其是在天体物理学和气象学等领域。科学家们使用复杂的仪器测量卫星和其他天体现象的高度和方位角，以收集可能导致突破性发现的数据。此外，时间和高度方位角的概念是现代技术的核心，包括GPS系统和提供实时定位服务的移动应用程序。这些技术通常结合天文数据，以提高其准确性和可靠性。例如，增强现实应用程序通过叠加有关星星和星座的信息，依赖于时间和高度方位角的原理，才能正常工作。总之，理解时间和高度方位角的概念并不限于理论知识；它在各个领域具有广泛的实际意义。从天文学和导航到摄影和技术，这一概念丰富了我们与周围世界互动的能力。随着我们继续探索宇宙并开发新技术，时间和高度方位角的原理将继续是我们努力的基础，塑造我们理解和导航环境的方式。