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相关概念视频

Gyroscope: Precession01:24

Gyroscope: Precession

4.1K
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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Gyroscope01:02

Gyroscope

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A gyroscope is defined as a spinning disk in which the axis of rotation is free to assume any orientation. When spinning, the orientation of the spin axis is unaffected by the orientation of the body that encloses it. The body or vehicle enclosing the gyroscope can be moved from place to place, while the orientation of the spin axis remains the same. This makes gyroscopes very useful in navigation, especially where magnetic compasses cannot be used, such as in crewed and crewless spacecraft,...
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Magnetic Damping01:17

Magnetic Damping

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Eddy currents can produce significant drag on motion, called magnetic damping. For instance, when a metallic pendulum bob swings between the poles of a strong magnet, significant drag acts on the bob as it enters and leaves the field, quickly damping the motion.
If, however, the bob is a slotted metal plate, the magnet produces a much smaller effect. When a slotted metal plate enters the field, an emf is induced by the change in flux; however, it is less effective because the slots limit the...
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Doppler Effect - II01:05

Doppler Effect - II

3.4K
The Doppler effect has several practical, real-world applications. For instance, meteorologists use Doppler radars to interpret weather events based on the Doppler effect. Typically, a transmitter emits radio waves at a specific frequency toward the sky from a weather station. The radio waves bounce off the clouds and precipitation and travel back to the weather station. The radio frequency of the waves reflected back to the station appears to decrease if the clouds or precipitation are moving...
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Dynamics of Circular Motion01:30

Dynamics of Circular Motion

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An object undergoing circular motion, like a race car, is accelerating because it is changing the direction of its velocity. This centrally directed acceleration is called centripetal acceleration. This acceleration acts along the radius of the curved path (thus is also referred to as radial acceleration).
Any acceleration must be produced by some force. Therefore, any force or combination of forces can cause centripetal acceleration. A few examples include the tension in the rope on a...
13.6K

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相关实验视频

Updated: Jul 9, 2025

A Protocol for Real-time 3D Single Particle Tracking
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A Protocol for Real-time 3D Single Particle Tracking

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随机步行减小在模糊的环激光陀螺仪.

Zhenfang Fan, Baolun Yuan, Hui Luo

    Optics express
    |November 29, 2023
    PubMed
    概括

    锁定错误补偿有效地消除了模糊环激光陀螺镜中的随机步行. 这种方法减少了随机步行系数,使陀螺仪能够接近其量子极限.

    科学领域:

    • 物理 物理学 物理
    • 光学工程是指光学工程.
    • 量子计量学 量子计量学

    背景情况:

    • 环激光陀螺仪对于惯性导航至关重要.
    • 锁定交叉是一个已知的现象,它在这些设备中引入随机步行错误.
    • 减轻锁定错误的现有方法具有局限性.

    研究的目的:

    • 实验性地证明了在模糊环激光陀螺仪中消除随机步行.
    • 为了验证锁定错误补偿技术.
    • 为了研究接近陀螺仪性能量子极限的潜力.

    主要方法:

    • 锁定错误补偿的实验实施在一个模糊的环激光陀螺仪.
    • 计算机模拟以验证补偿方法的有效性.
    • 补偿前后随机步行系数的分析.

    主要成果:

    • 通过成功的实验消除了由锁定交叉引起的随机步行.
    • 随机步行系数显著降低,符合理论预测.
    • 证明具有不同初始性能的陀螺仪在补偿后达到类似的低随机步行水平.

    结论:

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  • 锁定错误补偿是一种可行的和有效的方法,用于减轻环激光陀螺仪中的随机步行.
  • 该技术允许陀螺仪接近它们的基本量子极限.
  • 这一进步对高精度惯性传感具有重大意义.