angle of deviation

简明释义

1. 偏差角; 2. 磁偏角; 3. 偏斜角; 4. 偏角; 5. 偏移角度;

英英释义

例句

1.In navigation, the angle of deviation 偏差角 can affect the accuracy of the route taken.

在导航中，偏差角 angle of deviation可能会影响所选路线的准确性。

2.The technician noted the angle of deviation 偏差角 during the calibration process.

技术员在校准过程中注意到了偏差角 angle of deviation。

3.The pilot adjusted the flight path based on the angle of deviation 偏差角 from the intended course.

飞行员根据与预定航线的偏差角 angle of deviation调整了飞行路径。

4.A small angle of deviation 偏差角 can lead to significant errors in measurements over long distances.

小的偏差角 angle of deviation在长距离测量中可能导致显著的误差。

5.The engineer measured the angle of deviation 偏差角 to ensure the structure was aligned correctly.

工程师测量了偏差角 angle of deviation以确保结构正确对齐。

作文

In the study of physics, particularly in the realm of optics, the concept of the angle of deviation plays a crucial role in understanding how light behaves when it passes through different mediums. The angle of deviation refers to the angle between the original path of a light ray and its new path after it has been refracted or reflected. This phenomenon can be observed in various optical devices, such as prisms and lenses, where light changes direction due to differences in density between air and glass or other materials.To illustrate this concept, let us consider the example of a prism. When a beam of white light enters a prism, it slows down and bends at the interface between air and glass. The amount by which the light bends is determined by the material properties of the prism and the wavelength of the light. The angle of deviation is then measured as the difference between the incoming angle of the light ray and the outgoing angle after it exits the prism. This bending of light causes the separation of colors, resulting in a spectrum that can be seen on the other side of the prism.Moreover, the angle of deviation is not only significant in optics but also has applications in navigation and engineering. For instance, when designing roads or railways, engineers must consider the angle of deviation to ensure that vehicles can travel smoothly without sharp turns that could compromise safety. Similarly, in aviation, pilots must account for the angle of deviation caused by wind when plotting their flight paths, ensuring they reach their destination efficiently and safely.Understanding the angle of deviation is essential for students studying physics and engineering, as it lays the foundation for more complex topics such as wave optics and electromagnetic theory. By mastering this concept, students can gain insights into how light interacts with different materials and how these interactions can be harnessed in technology.Additionally, the angle of deviation can also be observed in everyday life. For instance, when we look at a straw in a glass of water, it appears to be bent at the surface due to the refraction of light. This simple observation demonstrates the principles behind the angle of deviation and its impact on our perception of objects. In conclusion, the angle of deviation is a fundamental concept in physics that describes how light changes direction when passing through different media. Its implications are vast, impacting fields from optics to engineering and everyday observations. By delving deeper into this topic, we can appreciate the intricate behaviors of light and its significance in our world. Understanding the angle of deviation not only enhances our knowledge of physical principles but also enriches our experiences as we interact with the environment around us.

在物理学的研究中，特别是在光学领域，偏差角的概念在理解光在不同介质中如何行为方面起着至关重要的作用。偏差角指的是光线的原始路径与其经过折射或反射后的新路径之间的角度。这种现象可以在各种光学设备中观察到，例如棱镜和透镜，其中光由于空气和玻璃或其他材料之间的密度差异而改变方向。为了说明这个概念，让我们考虑一个棱镜的例子。当一束白光进入棱镜时，它会减速并在空气和玻璃的界面处弯曲。光弯曲的程度取决于棱镜的材料特性和光的波长。然后，偏差角被测量为入射光线的角度与它在棱镜出口后出去的角度之间的差异。这种光的弯曲导致颜色的分离，结果是在棱镜另一侧可以看到的光谱。此外，偏差角不仅在光学中具有重要意义，而且在导航和工程中也有应用。例如，在设计道路或铁路时，工程师必须考虑偏差角以确保车辆能够平稳行驶，而不会出现可能危及安全的急转弯。同样，在航空中，飞行员在绘制航线时必须考虑风造成的偏差角，以确保他们高效且安全地到达目的地。理解偏差角对学习物理和工程的学生至关重要，因为它为更复杂的主题奠定了基础，例如波光学和电磁理论。通过掌握这一概念，学生可以深入了解光如何与不同材料相互作用，以及这些相互作用如何在技术中得到利用。此外，偏差角也可以在日常生活中观察到。例如，当我们看着盛有水的玻璃中的吸管时，由于光的折射，它似乎在表面处弯曲。这一简单的观察展示了偏差角背后的原理及其对我们对物体感知的影响。总之，偏差角是物理学中的一个基本概念，描述了光在通过不同介质时如何改变方向。它的影响是广泛的，涉及从光学到工程以及日常观察的各个领域。通过深入研究这一主题，我们可以欣赏光的复杂行为及其在我们世界中的重要性。理解偏差角不仅增强了我们对物理原理的认识，还丰富了我们与周围环境互动的体验。