drift dishtance
简明释义
漂移距离
英英释义
例句
1.To prevent accidents, we need to monitor the drift distance 漂移距离 of the aircraft during landing.
为了防止事故,我们需要监控飞机降落时的drift distance 漂移距离。
2.In our physics experiment, we calculated the drift distance 漂移距离 of the particles in the fluid.
在我们的物理实验中,我们计算了流体中粒子的drift distance 漂移距离。
3.During the storm, the drift distance 漂移距离 of the debris was alarming, as it moved several miles from the original site.
在暴风雨期间,碎片的drift distance 漂移距离令人震惊,因为它从原始地点移动了几英里。
4.The boat began to move away from the dock, and we had to measure the drift distance 漂移距离 to ensure it wouldn't drift too far.
船开始离开码头,我们必须测量drift distance 漂移距离以确保它不会漂得太远。
5.The researchers studied the drift distance 漂移距离 of the icebergs as they floated through the ocean.
研究人员研究了冰山在海洋中漂浮时的drift distance 漂移距离。
作文
In the realm of physics and engineering, the concept of drift distance plays a crucial role in understanding how particles and objects move through various mediums. The term drift distance refers to the average distance that a particle travels in a specific direction due to a net force acting on it, often in the context of electric fields or fluid dynamics. This phenomenon can be observed in numerous applications, including the design of electronic components, the study of atmospheric conditions, and even in the analysis of vehicular motion.To illustrate the significance of drift distance, let us consider an example from the field of electronics. When a voltage is applied across a conductor, free electrons begin to move towards the positive terminal. The average distance these electrons travel before colliding with atoms in the conductor is known as the drift distance. This parameter is vital for engineers when designing circuits, as it affects the conductivity and efficiency of the material used. A higher drift distance indicates that electrons can move more freely, resulting in better performance of electronic devices.Moreover, the concept of drift distance extends beyond just electronics. In meteorology, it is essential for predicting how pollutants disperse in the atmosphere. When a harmful substance is released into the air, its drift distance will determine how far it travels from the source before it dissipates or settles. Understanding this distance helps scientists develop models to predict air quality and assess environmental impacts. By analyzing factors such as wind speed, temperature, and humidity, researchers can estimate the drift distance of airborne particles, which is crucial for public health and safety.In transportation, drift distance also plays a significant role in vehicle dynamics. When a car takes a turn, the distance it drifts away from its intended path can affect its stability and control. Engineers use the principles of drift distance to enhance vehicle design, ensuring that cars can maneuver safely at high speeds without losing traction. This understanding is particularly important in motorsports, where precision and control are paramount.In conclusion, the concept of drift distance is not only fundamental in physics but also has practical implications across various fields. From optimizing electronic circuits to improving environmental predictions and enhancing vehicle safety, understanding drift distance allows scientists and engineers to make informed decisions that impact our daily lives. As technology continues to advance, the importance of accurately measuring and applying the principles of drift distance will only grow, driving innovation and progress in multiple disciplines.
在物理学和工程学领域,漂移距离的概念在理解粒子和物体如何通过各种介质移动方面起着至关重要的作用。术语漂移距离指的是由于施加在其上的净力,粒子在特定方向上平均移动的距离,通常涉及电场或流体动力学。这种现象可以在众多应用中观察到,包括电子元件的设计、大气条件的研究,甚至是车辆运动的分析。为了说明漂移距离的重要性,让我们考虑一个来自电子学的例子。当电压施加在导体上时,自由电子开始朝向正极移动。这些电子在与导体中的原子碰撞之前平均移动的距离被称为漂移距离。这一参数对于工程师在设计电路时至关重要,因为它影响所用材料的导电性和效率。较高的漂移距离表明电子可以更自由地移动,从而提高电子设备的性能。此外,漂移距离的概念不仅限于电子学。在气象学中,它对于预测污染物在大气中的扩散至关重要。当有害物质释放到空气中时,其漂移距离将决定它从源头传播的距离,直到消散或沉降。理解这个距离帮助科学家们建立模型,以预测空气质量并评估环境影响。通过分析风速、温度和湿度等因素,研究人员可以估计空气颗粒的漂移距离,这对于公共健康和安全至关重要。在交通运输中,漂移距离同样在车辆动态中扮演重要角色。当一辆车转弯时,它偏离预定路径的距离会影响其稳定性和控制能力。工程师利用漂移距离的原理来增强车辆设计,确保汽车在高速行驶时能够安全操控,而不会失去抓地力。这种理解在赛车运动中尤为重要,因为精确控制至关重要。总之,漂移距离的概念不仅在物理学中是基础性的,而且在各个领域都有实际的应用。从优化电子电路到改善环境预测,以及提升车辆安全性,理解漂移距离使科学家和工程师能够做出影响我们日常生活的明智决策。随着科技的不断进步,准确测量和应用漂移距离原理的重要性只会增加,从而推动多个学科的创新和进步。
