deflecting system

简明释义

偏向系统

英英释义

例句

1.The new satellite employs a sophisticated deflecting system to avoid space debris.

这颗新卫星采用了复杂的偏转系统来避开太空垃圾。

2.The deflecting system in this laser cutter helps improve precision by redirecting the beam.

这个激光切割机中的偏转系统通过重新定向光束来提高精度。

3.The deflecting system installed on the vehicle reduces wind resistance and improves fuel efficiency.

安装在车辆上的偏转系统减少了风阻，提高了燃油效率。

4.Engineers designed a deflecting system for the bridge to withstand strong winds.

工程师们为这座桥设计了一个偏转系统以抵御强风。

5.In the event of an emergency, the deflecting system will guide the aircraft away from obstacles.

在紧急情况下，偏转系统将引导飞机远离障碍物。

作文

In the realm of engineering and physics, the concept of a deflecting system plays a crucial role in various applications. A deflecting system can be defined as a mechanism or structure designed to redirect the path of an object or a wave, typically through the application of forces or changes in medium. These systems are essential in many fields, including telecommunications, aerospace, and even civil engineering. Understanding how deflecting systems work can provide insights into their importance and functionality in real-world scenarios.One of the most common examples of a deflecting system is found in radar technology. Radar systems utilize radio waves to detect and locate objects such as aircraft or ships. The emitted waves travel through the atmosphere and reflect off the target. The deflecting system in this context refers to the antennas and signal processing units that manipulate the direction and focus of these waves. By adjusting the angle of the antennas, operators can effectively deflect the radar waves to cover a broader area, enhancing detection capabilities.In the field of aerospace engineering, deflecting systems are integral to the design of aircraft and spacecraft. For instance, control surfaces like ailerons, elevators, and rudders serve as deflecting systems that alter the airflow around the vehicle. By changing the position of these surfaces, pilots can deflect the air, thereby controlling the pitch, roll, and yaw of the aircraft. This ability to maneuver is vital for safe and efficient flight operations.Another interesting application of deflecting systems is in civil engineering, particularly in the design of bridges and buildings. Engineers often incorporate deflecting systems to manage the forces exerted by wind or seismic activity. For example, a bridge may use dampers or flexible joints as a deflecting system to absorb and redirect the forces generated during an earthquake. This helps to maintain the structural integrity of the bridge, ensuring safety for its users.In addition to their practical applications, deflecting systems also have theoretical implications in physics. The study of wave behavior, particularly in optics and acoustics, involves understanding how waves can be deflected or refracted when passing through different mediums. Lenses and mirrors are classic examples of deflecting systems that manipulate light paths to create images. By studying these interactions, scientists can develop new technologies such as advanced imaging systems and optical devices.In summary, the concept of a deflecting system encompasses a wide range of mechanisms that redirect forces or waves across various fields. From radar technology to aerospace and civil engineering, understanding how these systems function is essential for innovation and safety. As technology continues to advance, the importance of deflecting systems will only grow, leading to new discoveries and applications that enhance our daily lives. Whether it is improving communication, ensuring safe air travel, or designing resilient structures, deflecting systems remain a fundamental aspect of modern engineering and science.

在工程和物理学领域，deflecting system的概念在各种应用中发挥着至关重要的作用。deflecting system可以定义为一种机制或结构，旨在通过施加力量或改变介质来重新定向物体或波的路径。这些系统在许多领域都是必不可少的，包括电信、航空航天，甚至土木工程。理解deflecting systems的工作原理可以为我们提供对其重要性和在现实世界中的功能的深入了解。一个常见的deflecting system例子可以在雷达技术中找到。雷达系统利用无线电波来检测和定位物体，如飞机或船只。发射的波通过大气传播并反射到目标上。在这种情况下，deflecting system指的是操纵这些波的方向和焦点的天线和信号处理单元。通过调整天线的角度，操作员可以有效地偏转雷达波，以覆盖更广泛的区域，从而增强探测能力。在航空航天工程领域，deflecting systems是飞机和航天器设计的核心。例如，副翼、升降舵和方向舵等控制面作为deflecting systems，改变气流绕过飞行器的方式。通过改变这些表面的相对位置，飞行员可以偏转空气，从而控制飞机的俯仰、滚转和偏航。这种操控能力对于安全和高效的飞行操作至关重要。deflecting systems的另一个有趣应用是在土木工程中，特别是在桥梁和建筑物的设计中。工程师经常采用deflecting systems来管理风或地震活动施加的力量。例如，一座桥可能使用阻尼器或柔性接头作为deflecting system，以吸收和重新定向在地震期间产生的力量。这有助于保持桥梁的结构完整性，确保用户的安全。除了它们的实际应用，deflecting systems在物理学中也具有理论意义。波行为的研究，特别是在光学和声学中，涉及理解波在通过不同介质时如何被偏转或折射。透镜和镜子是经典的deflecting systems，通过操纵光的路径来创建图像。通过研究这些相互作用，科学家可以开发出新技术，例如先进的成像系统和光学设备。总之，deflecting system的概念涵盖了各种重定向力量或波的机制，涉及多个领域。从雷达技术到航空航天和土木工程，理解这些系统的功能对于创新和安全至关重要。随着技术的不断进步，deflecting systems的重要性将只会增加，导致新的发现和应用，从而提升我们的日常生活。无论是改善通信、确保安全飞行，还是设计抗震能力强的结构，deflecting systems仍然是现代工程和科学的基本组成部分。