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相关概念视频

Compass01:23

Compass

61
The compass is a fundamental instrument that operates by aligning its magnetic needle with Earth's magnetic field. This alignment facilitates navigation and orientation, offering a means to determine direction relative to magnetic north. However, the magnetic needle points to magnetic north, which differs slightly from true geographic north due to magnetic declination, which is the angular deviation between these two points. Declination varies based on geographic location and shifts over time...
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Magnetic Declination01:19

Magnetic Declination

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Magnetic declination is the angle between true north, which aligns with the Earth's rotational axis, and magnetic north, which follows the direction of the Earth's magnetic field. This discrepancy exists because the magnetic poles do not coincide with the geographic poles. The value of magnetic declination depends on the observer's location on Earth and is subject to changes over time due to the dynamic nature of the Earth's magnetic field.The declination is called eastern when magnetic north...
46
Azimuths and Bearings01:19

Azimuths and Bearings

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Azimuths and bearings are essential concepts in surveying, providing methods to express the direction of a line relative to a meridian. Azimuths refer to the clockwise angle measured from the north end of a reference meridian to the given line, ranging from zero to 360 degrees. This method gives a comprehensive directional reference within a full 360-degree circle, making it a straightforward way to communicate direction in various fields, including navigation, cartography, and...
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Galvanometer01:25

Galvanometer

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Common devices, including car instrument panels, battery chargers, and inexpensive electrical instruments, measure potential difference (voltage), current, or resistance using a d'Arsonval galvanometer. This electromechanical instrument is also known as a moving coil galvanometer.
The galvanometer consists of  two concave-shaped permanent magnets, providing a uniform radial magnetic field in the annular region. In the center, a pivoted coil of fine copper wire is placed in the uniform...
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Gyroscope: Precession01:24

Gyroscope: Precession

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Precession can be demonstrated effectively through a spinning top. If a spinning top is placed on a flat surface near the surface of the Earth at a vertical angle and is not spinning, it will fall over due to the force of gravity producing a torque acting on its center of mass. However, if the top is spinning on its axis, it precesses about the vertical direction, rather than topple over due to this torque. Precessional motion is a combination of a steady circular motion of the axis and the...
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Polar and Cylindrical Coordinates01:22

Polar and Cylindrical Coordinates

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The Cartesian coordinate system is a very convenient tool to use when describing the displacements and velocities of objects and the forces acting on them. However, it becomes cumbersome when we need to describe the rotation of objects. So, when describing rotation, the polar coordinate system is generally used.
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通过生物极化光指南针探测太阳位置的方法.

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    科学领域:

    • 光学和光子学 在光学和光子学.
    • 导航系统 导航系统
    • 大气科学 大气科学

    背景情况:

    • 准确的太阳位置对于导航系统至关重要.
    • 传统的太阳能探测方法在准确性和适用性方面存在局限性.
    • 大气中的极化光模式提供了一个新的数据源.

    研究的目的:

    • 开发一种使用全天空极化模式的精确太阳位置检测方法.
    • 为了克服传统的基于点的太阳能探测的局限性.
    • 为了使用大气极化实现精确的导航.

    主要方法:

    • 设计了一个全天空偏振图案成像系统,配有微型摄像头和偏振器.
    • 一个太阳位置解决方案算法被开发和模拟.
    • 该系统在各种天气条件下经过实验验证.

    主要成果:

    • 在晴朗的天气 (0.024°海拔,0.03°光线) 中实现了高精度.
    • 对于建筑物和树叶等障碍物 (0.08°/0.05°和0.3°/0.1°) 的检测仍然准确.
    • 发现高度的气溶会通过破坏偏振光模式来降低精度.

    结论:

    • 拟议的方法准确地确定太阳的位置,用于偏光导航.
    • 该系统在各种环境条件下表现出稳健性.
    • 这种技术为天体导航和天文探索提供了新的途径.