ballistic arm

简明释义

水银器连杆

英英释义

例句

1.A malfunction in the ballistic arm can lead to inaccurate results.

在弹道臂中的故障可能导致不准确的结果。

2.During testing, the ballistic arm recorded the speed of projectiles.

在测试期间，弹道臂记录了弹丸的速度。

3.The military uses a ballistic arm to test the trajectory of missiles.

军方使用弹道臂来测试导弹的轨迹。

4.The ballistic arm helps in simulating various launch conditions.

该弹道臂有助于模拟各种发射条件。

5.Engineers designed a new ballistic arm for improved accuracy in weapon systems.

工程师设计了一种新的弹道臂以提高武器系统的准确性。

作文

In the world of engineering and technology, the term ballistic arm refers to a type of mechanical arm that is designed to move with high speed and precision, often used in applications where rapid motion is essential. These arms are commonly found in robotics, military applications, and even in some sports technologies. The design of a ballistic arm allows it to execute movements that mimic the trajectory of projectiles, hence the name 'ballistic'. This capability makes them particularly valuable in scenarios where accuracy and speed are crucial. One prominent application of ballistic arm technology is in robotic systems used for manufacturing. In factories, robotic arms equipped with ballistic arm capabilities can perform tasks such as welding, painting, or assembly at speeds that far exceed human capabilities. This not only increases productivity but also enhances the precision of the work being done. For example, a robotic arm can be programmed to move in a specific trajectory, allowing it to apply paint evenly on a surface without overspray, which is a common issue with manual painting. Additionally, ballistic arm technology is utilized in military applications, where it can be integrated into weapon systems. These arms can launch projectiles with remarkable accuracy and speed, making them vital for modern warfare. The engineering behind a ballistic arm involves complex calculations related to angles, forces, and trajectories, ensuring that the projectiles hit their intended targets. This level of precision is critical in combat situations where the margin for error is minimal. Moreover, the concept of ballistic arm is not limited to industrial or military uses; it has also found its way into sports technology. For instance, athletes are now using equipment that incorporates ballistic arm principles to enhance their performance. In baseball, pitchers can utilize training devices that simulate the mechanics of a ballistic arm to improve their throwing technique, leading to faster pitches and better accuracy. This innovative approach to sports training is revolutionizing how athletes prepare for competition. The development of ballistic arm technology also raises questions about safety and ethical considerations. As these arms become more advanced, there is a growing concern about their potential misuse, particularly in military contexts. The ability to deploy such technology with high precision could lead to devastating consequences if not regulated properly. Therefore, it is imperative that engineers and policymakers work together to establish guidelines that ensure the responsible use of ballistic arm technology. In conclusion, the term ballistic arm encapsulates a fascinating intersection of technology, engineering, and ethics. Its applications range from manufacturing to military and sports, showcasing the versatility and importance of this technology in our modern world. As we continue to innovate and push the boundaries of what is possible, understanding the implications of ballistic arm technology will be crucial in shaping a future that balances advancement with responsibility.

在工程和技术的世界中，术语ballistic arm指的是一种设计用于高速和精确移动的机械臂，通常用于快速运动至关重要的应用。这些臂常见于机器人技术、军事应用，甚至一些体育技术中。ballistic arm的设计使其能够执行模拟弹道轨迹的运动，因此得名“弹道”。这种能力使它们在准确性和速度至关重要的场景中特别有价值。ballistic arm技术的一个突出应用是在用于制造的机器人系统中。在工厂中，配备有ballistic arm能力的机器人臂可以以远超人类的速度执行焊接、喷漆或组装等任务。这不仅提高了生产效率，还增强了工作的精确度。例如，机器人臂可以编程以特定轨迹移动，从而使其在表面上均匀涂抹油漆，而不会出现手动喷漆时常见的溢出问题。此外，ballistic arm技术还被用于军事应用，其中它可以集成到武器系统中。这些臂可以以惊人的准确性和速度发射弹药，使其在现代战争中至关重要。ballistic arm背后的工程涉及与角度、力和轨迹相关的复杂计算，确保弹药击中预定目标。这种精确度在战斗情况下是至关重要的，因为容错率极小。此外，ballistic arm的概念并不限于工业或军事用途；它也已进入体育技术。例如，运动员现在使用结合了ballistic arm原理的设备来增强他们的表现。在棒球中，投手可以利用模拟ballistic arm机制的训练设备来改善投球技术，从而实现更快的投球和更好的准确性。这种创新的体育训练方法正在彻底改变运动员的比赛准备方式。ballistic arm技术的发展也引发了关于安全和伦理考虑的问题。随着这些臂变得越来越先进，人们对其潜在误用的担忧日益增加，尤其是在军事背景下。以高精度部署此类技术的能力如果未得到适当监管，可能会导致毁灭性的后果。因此，工程师和政策制定者必须共同努力，建立确保ballistic arm技术负责任使用的指导方针。总之，术语ballistic arm概括了技术、工程和伦理之间的迷人交集。它的应用范围从制造到军事和体育，展示了这一技术在我们现代世界中的多样性和重要性。随着我们不断创新并推动可能性的边界，理解ballistic arm技术的影响将对塑造一个平衡进步与责任的未来至关重要。