angular deviation

简明释义

角偏差

英英释义

例句

1.The engineer measured the angular deviation 角度偏差 of the structure to ensure it met the design specifications.

工程师测量了结构的angular deviation 角度偏差以确保其符合设计规范。

2.During the experiment, we recorded the angular deviation 角度偏差 of the laser beam from its intended path.

在实验过程中，我们记录了激光束与其预定路径的angular deviation 角度偏差。

3.In robotics, angular deviation 角度偏差 can affect the precision of a robot's movements.

在机器人技术中，angular deviation 角度偏差会影响机器人的运动精度。

4.To optimize performance, the team analyzed the angular deviation 角度偏差 in the vehicle's wheel alignment.

为了优化性能，团队分析了车辆轮胎对齐中的angular deviation 角度偏差。

5.The telescope's angular deviation 角度偏差 was corrected to improve the accuracy of stargazing.

望远镜的angular deviation 角度偏差被校正，以提高观星的准确性。

作文

In the realm of physics and engineering, the concept of angular deviation plays a crucial role in understanding how objects behave when subjected to various forces. Angular deviation refers to the change in the angle of an object from its original position during movement or rotation. This concept is particularly significant in fields such as optics, mechanics, and robotics, where precise movements and orientations are essential for functionality and accuracy.To illustrate the importance of angular deviation, consider the example of a laser beam being directed towards a target. If the laser is perfectly aligned, it hits the target with precision. However, any slight misalignment due to environmental factors or mechanical errors can lead to a measurable angular deviation. This deviation can result in the laser missing the target entirely, highlighting how even minor angular changes can have significant consequences.In robotics, angular deviation is critical for ensuring that robotic arms and other mechanisms operate correctly. When a robot is programmed to perform tasks such as picking up objects or assembling components, it must maintain precise angles to execute these actions effectively. Any angular deviation can lead to errors, causing the robot to malfunction or produce faulty products. Therefore, engineers must account for potential deviations in their designs and implement feedback systems that can correct any discrepancies in real-time.Furthermore, the study of angular deviation is essential in navigation systems, particularly in aviation and maritime contexts. Aircraft and ships rely on accurate heading and orientation to reach their destinations safely. A small angular deviation in their course can lead to significant navigational errors over long distances. As such, pilots and navigators must constantly monitor and adjust their instruments to minimize any deviations and ensure they stay on course.In conclusion, angular deviation is a fundamental concept that permeates various scientific and engineering disciplines. Its implications are far-reaching, affecting everything from the precision of laser technology to the functionality of robotic systems and the safety of navigation in transportation. Understanding and managing angular deviation is vital for achieving accuracy and reliability in numerous applications, underscoring its importance in modern technology and science. As we continue to advance in these fields, the need for precise measurements and adjustments will only grow, making the mastery of concepts like angular deviation increasingly crucial for future innovations.

在物理和工程领域，角度偏差的概念在理解物体在受各种力作用下的行为时发挥着至关重要的作用。角度偏差指的是物体在运动或旋转过程中相对于其原始位置的角度变化。这个概念在光学、机械和机器人等领域尤为重要，因为精确的运动和方向对于功能性和准确性至关重要。为了说明角度偏差的重要性，可以考虑激光束指向目标的例子。如果激光完美对齐，它将精确地击中目标。然而，由于环境因素或机械错误造成的任何轻微失调都可能导致可测量的角度偏差。这种偏差可能导致激光完全错过目标，突显出即使是微小的角度变化也可能产生重大后果。在机器人技术中，角度偏差对于确保机器人手臂和其他机制正确操作至关重要。当机器人被编程执行诸如拾取物体或组装组件等任务时，它必须保持精确的角度以有效地执行这些动作。任何角度偏差都可能导致错误，导致机器人故障或生产出有缺陷的产品。因此，工程师必须在设计中考虑潜在的偏差，并实施反馈系统以实时纠正任何差异。此外，角度偏差的研究在导航系统中也至关重要，特别是在航空和海洋环境中。飞机和船只依赖于准确的航向和方向安全到达目的地。小的角度偏差可能导致长距离内显著的导航错误。因此，飞行员和导航员必须不断监控和调整他们的仪器，以最小化任何偏差并确保他们保持在正确的航道上。总之，角度偏差是一个基本概念，渗透到多个科学和工程学科中。它的影响深远，影响着从激光技术的精确性到机器人系统的功能性，以及运输导航的安全性。理解和管理角度偏差对实现许多应用中的准确性和可靠性至关重要，这突显了它在现代技术和科学中的重要性。随着我们在这些领域的不断进步，对精确测量和调整的需求只会增加，使得掌握像角度偏差这样的概念在未来的创新中愈发重要。