dead beat instrument

简明释义

速示测试仪器

英英释义

A dead beat instrument is a type of measuring device that quickly comes to rest at its final reading without oscillating or overshooting, providing an accurate and stable indication of the measured quantity.

死区仪器是一种测量设备,它能够迅速稳定在最终读数上,而不会发生震荡或超调,从而提供被测量量的准确和稳定的指示。

例句

1.In the studio, they found that the microphone was a dead beat instrument and needed to be repaired.

在录音室,他们发现麦克风是一个失效乐器,需要修理。

2.After years of neglect, the piano in the corner had become a dead beat instrument.

在多年被忽视后,角落里的钢琴变成了一个失效乐器

3.The teacher explained that using a dead beat instrument would not help students learn music effectively.

老师解释说,使用失效乐器将无法有效帮助学生学习音乐。

4.The musician decided to replace his old guitar with a new model, calling the old one a dead beat instrument.

这位音乐家决定用新型号替换他的旧吉他,称旧吉他为失效乐器

5.He realized that his old trumpet was just a dead beat instrument and decided to buy a new one.

他意识到他的旧小号只是一个失效乐器,于是决定买一个新的。

作文

In the world of physics and engineering, understanding different types of instruments is crucial for both theoretical studies and practical applications. One such term that often arises in discussions about measurement devices is dead beat instrument. A dead beat instrument refers to a type of measuring device that provides a reading without oscillating or fluctuating around the final value. Instead, it 'locks' onto the measurement almost instantaneously, allowing for quick and accurate readings. This characteristic makes it particularly useful in scenarios where precision is paramount, such as in laboratory settings or during critical measurements in engineering projects.The significance of dead beat instrument lies in its ability to minimize human error and improve efficiency. When using traditional measuring instruments, users often have to wait for the needle or pointer to stabilize before taking a reading. This can lead to inaccuracies, especially if the user is impatient or distracted. In contrast, a dead beat instrument eliminates this waiting period, providing a clear and immediate indication of the measurement. This feature is particularly beneficial in fast-paced environments where time is of the essence.Moreover, dead beat instruments are designed to be highly sensitive and responsive. They are often utilized in applications where even the slightest variation in measurement can lead to significant consequences. For instance, in scientific research, a dead beat instrument can help researchers obtain precise data needed for their experiments, ensuring that their findings are valid and reliable. Similarly, in the field of engineering, these instruments play a vital role in quality control processes, where accurate measurements are essential for maintaining product standards.Despite their advantages, dead beat instruments are not without limitations. They can be more complex and expensive than their traditional counterparts, which may deter some users from adopting them. Additionally, while they excel in providing quick readings, they may not always be suitable for every type of measurement scenario. For example, in situations where gradual changes in measurement need to be monitored, a different type of instrument might be more appropriate.In conclusion, the concept of a dead beat instrument is integral to the fields of measurement and instrumentation. Its ability to provide immediate and stable readings makes it an invaluable tool in various applications, from scientific research to engineering practices. Understanding how and when to use a dead beat instrument can greatly enhance the accuracy and efficiency of measurements, ultimately leading to better outcomes in both academic and professional settings. As technology continues to evolve, it will be interesting to see how dead beat instruments are further developed and integrated into new measurement technologies, ensuring that precision remains at the forefront of scientific and engineering advancements.

在物理和工程的世界中,理解不同类型的仪器对理论研究和实际应用至关重要。在关于测量设备的讨论中,一个常常出现的术语是死点仪器死点仪器指的是一种测量设备,它能够在没有振荡或波动的情况下提供读数。相反,它几乎瞬间“锁定”测量值,从而允许快速和准确的读数。这一特性使其在精度至关重要的场景中尤为有用,例如实验室环境或关键测量的工程项目中。死点仪器的重要性在于它能够最小化人为错误并提高效率。当使用传统测量仪器时,用户通常必须等待指针或指示器稳定后才能读取。这可能导致不准确,特别是如果用户心急或分心。相比之下,死点仪器消除了这一等待时间,提供清晰且即时的测量指示。这一特性在快速节奏的环境中尤其有益,因为时间至关重要。此外,死点仪器被设计得高度灵敏和响应迅速。它们通常用于即使是最微小的测量变化也能导致重大后果的应用中。例如,在科学研究中,死点仪器可以帮助研究人员获得实验所需的精确数据,确保他们的发现是有效和可靠的。同样,在工程领域,这些仪器在质量控制过程中发挥着至关重要的作用,准确的测量对于维持产品标准至关重要。尽管有其优势,死点仪器并非没有局限性。与传统仪器相比,它们可能更复杂且成本更高,这可能会阻止一些用户采用。此外,虽然它们在提供快速读数方面表现出色,但并不总适合每种类型的测量场景。例如,在需要监测测量逐渐变化的情况下,可能更适合使用其他类型的仪器。总之,死点仪器的概念对于测量和仪器领域至关重要。它能够提供即时和稳定的读数,使其成为各种应用中不可或缺的工具,从科学研究到工程实践。了解如何及何时使用死点仪器可以大大提高测量的准确性和效率,最终在学术和专业环境中带来更好的结果。随着技术的不断发展,未来将会有趣的是观察死点仪器如何进一步发展并融入新的测量技术中,确保精度始终处于科学和工程进步的前沿。