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相关概念视频

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The first two kinematic equations have time as a variable, but the third kinematic equation is independent of time. This equation expresses final velocity as a function of the acceleration and distance over which it acts. The fourth kinematic equation does not have an acceleration term and provides the final position of the object at time t in terms of the initial and final velocities. This equation is useful when the value of the constant acceleration is unknown.
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Relative velocity is the velocity of an object as observed from a particular reference frame, or the velocity of one reference frame with respect to another reference frame. The concept of relative velocity can be used to describe motion in two dimensions. Consider a particle P and two reference frames S and S′. The position of the origin of S′ as measured in S is , the position of P as measured in S′ is , and the position of P as measured in S is , which can be evaluated by...
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Newton’s first law is usually considered to be a statement about reference frames. It provides a method for identifying a special type of reference frame: the inertial reference frame. In principle, we can make the net force on a body zero. If its velocity relative to a given frame is constant, then that frame is said to be inertial. So, by definition, an inertial reference frame is a reference frame where Newton's first law holds valid. Newton's first law applies to objects with...
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A reference frame accelerating or decelerating relative to an inertial frame is a non-inertial frame. To help understand this, consider what taking off in an airplane, turning a corner in a car, riding a merry-go-round, and the circular motion of a tropical cyclone all have in common. All these systems are accelerating, decelerating, or rotating relative to the Earth; hence, they all are non-inertial frames. All these systems exhibit inertial forces, which merely seem to arise from motion,...
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在第三个维度中的测距.

S Wohlgemuth1, B Ronacher, R Wehner

  • 1Institute of Biology, Humboldt-University Berlin, Germany.

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PubMed
概括
此摘要是机器生成的。

沙漠使用路径集成进行导航. 它们的距离估计依赖于地面距离,而不是实际旅行距离,即使是垂直地形变化.

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科学领域:

  • 动物行为 动物行为
  • 神经科学是一个神经科学.
  • 导航 导航 导航 导航 导航

背景情况:

  • 沙漠 (Cataglyphis) 使用路径集成进行导航,根据距离和方向更新家庭向量.
  • 角度定向依赖于天窗线索,但距离测量机制不太了解.
  • 之前的路径整合研究侧重于水平移动,忽视了垂直组件.

研究的目的:

  • 研究沙漠的距离估计 (公里计) 在与垂直地形的路径整合过程中如何起作用.
  • 确定是否会在它们的定位距离计算中考虑高度变化.

主要方法:

  • 训练有素的Cataglyphis通过上坡和下坡的道来导航.
  • 在垂直训练后,在平坦的地形上测试回家行为,反之亦然.
  • 分析了与实际旅行和地面距离相对应的指示回归距离.

主要成果:

  • 的追踪距离估计与所行驶的总距离不匹配.
  • 始终报告与地面距离 (水平投影的和) 相对应的距离.
  • 垂直地形组件被整合为水平距离在他们的路径整合计算.

结论:

  • 沙漠路径集成用于距离测量优先考虑地面距离而不是实际路径长度.
  • 的公里表似乎测量水平移位,有效地忽略了高度变化.
  • 这一发现为具有垂直复杂性的动物导航机制提供了新的见解.