roll frequency

简明释义

横摇频率

英英释义

例句

1.The technician recorded the roll frequency 滚动频率 during the testing phase.

技术员在测试阶段记录了滚动频率。

2.The vibration analysis showed that the roll frequency 滚动频率 was within acceptable limits.

振动分析显示，滚动频率在可接受的范围内。

3.The engineer adjusted the roll frequency 滚动频率 of the conveyor belt to improve efficiency.

工程师调整了输送带的滚动频率以提高效率。

4.To achieve a smoother operation, we need to monitor the roll frequency 滚动频率 of the machinery regularly.

为了实现更平稳的操作，我们需要定期监测机器的滚动频率。

5.Adjusting the roll frequency 滚动频率 can significantly reduce wear on the components.

调整滚动频率可以显著减少部件的磨损。

作文

In the field of engineering and physics, understanding various parameters is crucial for analyzing systems effectively. One such parameter is the roll frequency, which refers to the rate at which a rolling object completes one full rotation around its axis. This concept is particularly significant in the study of dynamics and motion, especially in applications involving vehicles, machinery, and even amusement park rides. The roll frequency can influence stability, performance, and safety in these systems, making it essential for engineers and designers to consider when creating their models.To illustrate the importance of roll frequency, let's consider the case of a car navigating through a sharp turn. As the vehicle approaches the curve, the tires begin to roll, and the roll frequency becomes a critical factor in determining how well the car can maintain its balance and grip on the road. If the roll frequency is too high, the car may experience a loss of traction, leading to skidding or even rolling over. Conversely, if the roll frequency is optimal, the car can maneuver through the turn smoothly, ensuring both safety and performance.Moreover, the roll frequency is not only relevant in automotive engineering but also plays a vital role in aerospace applications. For instance, when designing aircraft, engineers must account for the roll frequency of the wings during flight. A well-calibrated roll frequency allows for better control and stability, which is essential for safe takeoffs and landings. Any discrepancies in the roll frequency could lead to aerodynamic instabilities, potentially compromising the safety of the passengers and crew.In addition to vehicles and aircraft, the concept of roll frequency can also be observed in various mechanical systems. For example, in roller coasters, the roll frequency of the cars as they navigate loops and turns directly impacts the thrill and safety of the ride. Engineers meticulously calculate the roll frequency to ensure that riders experience an exhilarating yet safe adventure. Too high of a roll frequency could lead to discomfort or danger, while too low might result in a lackluster experience.Furthermore, understanding roll frequency extends beyond physical systems; it can also apply to data analysis and signal processing. In these contexts, the roll frequency might refer to the frequency at which data points are updated or recorded. For instance, in a monitoring system that tracks environmental changes, the roll frequency of data collection can significantly affect the accuracy and responsiveness of the system. A higher roll frequency allows for real-time analysis, providing more accurate insights into changing conditions.In conclusion, the concept of roll frequency is a multifaceted parameter that plays a crucial role in various fields, including engineering, physics, and data analysis. Its implications on safety, performance, and efficiency cannot be overstated. By understanding and optimizing roll frequency, engineers and designers can create better systems that enhance user experience while ensuring safety and reliability. Whether in vehicles, aircraft, amusement rides, or data systems, the significance of roll frequency is evident, highlighting the intricate connections between motion, stability, and design.

在工程和物理学领域，理解各种参数对于有效分析系统至关重要。其中一个参数是roll frequency（翻滚频率），它指的是一个滚动物体绕其轴心完成一整圈的速率。这个概念在动力学和运动的研究中尤为重要，特别是在涉及车辆、机械甚至游乐园设施的应用中。roll frequency对这些系统的稳定性、性能和安全性有影响，因此工程师和设计师在创建模型时必须考虑这一点。为了说明roll frequency的重要性，我们来考虑一下汽车通过急转弯的案例。当车辆接近弯道时，轮胎开始滚动，roll frequency成为决定汽车如何保持平衡和抓地力的关键因素。如果roll frequency过高，汽车可能会失去牵引力，导致打滑甚至翻车。相反，如果roll frequency处于最佳状态，汽车可以顺利通过转弯，从而确保安全和性能。此外，roll frequency不仅在汽车工程中相关，在航空航天应用中也发挥着至关重要的作用。例如，在设计飞机时，工程师必须考虑机翼在飞行中的roll frequency。良好的roll frequency可以提供更好的控制和稳定性，这对安全起飞和着陆至关重要。任何roll frequency的差异都可能导致空气动力学的不稳定，可能危及乘客和机组人员的安全。除了车辆和飞机，roll frequency的概念还可以在各种机械系统中观察到。例如，在过山车中，车辆在循环和转弯时的roll frequency直接影响着乘坐的刺激感和安全性。工程师们精心计算roll frequency以确保乘客体验到令人兴奋但又安全的冒险。过高的roll frequency可能导致不适或危险，而过低则可能导致体验缺乏趣味。此外，理解roll frequency超越了物理系统；它也可以应用于数据分析和信号处理。在这些背景下，roll frequency可能指的是数据点更新或记录的频率。例如，在跟踪环境变化的监测系统中，数据收集的roll frequency可以显著影响系统的准确性和响应性。较高的roll frequency允许实时分析，提供对变化条件的更准确见解。总之，roll frequency的概念是一个多方面的参数，在包括工程、物理学和数据分析等多个领域中发挥着关键作用。它对安全、性能和效率的影响不容小觑。通过理解和优化roll frequency，工程师和设计师可以创建更好的系统，提升用户体验，同时确保安全和可靠性。无论是在车辆、飞机、游乐设施还是数据系统中，roll frequency的重要性显而易见，突显了运动、稳定性和设计之间的复杂联系。