ratemeter

简明释义

英[/ˈreɪtˌmiːtər/]美[/ˈreɪtˌmiːtər/]

n. 记数率计；强度计；定率计

英英释义

单词用法

同义词

反义词

例句

1.The TR400 is a Full Logic Control Process Ratemeter that can display any production rate or time in process easily and accurately.

TR400反转探测器是一款逻辑控制的过程速率计，可现实任何产品在加工过程中的速率或时间，方便，精确。

2.The TR400 is a Full Logic Control Process Ratemeter that can display any production rate or time in process easily and accurately.

TR400反转探测器是一款逻辑控制的过程速率计，可现实任何产品在加工过程中的速率或时间，方便，精确。

3.It has better stability, higher accuracy and more excellent linearity than analog linear ratemeter.

它比模拟线性计数率计有更高的精度、更好的线性和稳定性。

4.In the lab, we calibrated the ratemeter before conducting the experiment.

在实验室，我们在进行实验之前校准了流量计。

5.The ratemeter displayed an accurate reading of the gas flow rate.

该流量计准确显示了气体流量的读数。

6.The ratemeter is essential for calculating the efficiency of the system.

该流量计对于计算系统的效率至关重要。

7.To ensure safety, the engineer monitored the ratemeter readings during the test.

为了确保安全，工程师在测试期间监控了流量计的读数。

8.The technician used a ratemeter to measure the flow rate of the liquid in the pipeline.

技术员使用流量计测量管道中液体的流速。

作文

In the realm of scientific measurements, precision and accuracy are paramount. One of the essential instruments used for measuring various parameters is the ratemeter. A ratemeter is an instrument designed to measure the rate of a certain phenomenon, such as the rate of radioactive decay in nuclear physics, or the flow rate of liquids in engineering applications. Understanding how a ratemeter functions can provide insights into its applications across different fields.The concept of a ratemeter is particularly significant in the field of nuclear medicine and radiology. In these areas, it is crucial to monitor the levels of radiation exposure for both patients and medical personnel. A ratemeter allows for real-time monitoring of radiation levels, ensuring that they remain within safe limits. This is not only vital for safety but also for effective treatment planning. For instance, during radiation therapy, doctors must know the exact dose being delivered to target tissues while minimizing exposure to surrounding healthy tissues. Here, the ratemeter plays a critical role.Moreover, the ratemeter is instrumental in environmental science, where it is used to measure the rate of pollutants in air and water. By quantifying the concentration of harmful substances, scientists can assess the impact of industrial activities on ecosystems. This data is crucial for regulatory bodies to enforce environmental protection laws and for researchers to develop strategies for pollution mitigation.In engineering, particularly in fluid dynamics, the ratemeter measures the flow rate of liquids through pipes. Accurate flow measurement is essential in various industries, including oil and gas, water supply, and chemical processing. Engineers rely on the ratemeter to ensure that systems operate efficiently and safely. Any discrepancies in flow rates can lead to catastrophic failures, making the ratemeter an indispensable tool in these settings.The technology behind the ratemeter has evolved significantly over the years. Traditional ratemetres, which relied on mechanical components, have largely been replaced by digital devices that offer higher precision and easier data interpretation. Modern ratemetres often incorporate advanced sensors and software, allowing for real-time data logging and analysis. This technological advancement has expanded the capabilities of the ratemeter, making it applicable in more complex scenarios than ever before.Furthermore, the integration of the ratemeter with other technologies, such as IoT (Internet of Things), is paving the way for smart monitoring systems. These systems can provide alerts when readings exceed predetermined thresholds, enabling proactive measures to be taken. This is particularly useful in industrial settings, where rapid response to changes in flow rates or radiation levels can prevent accidents and ensure compliance with safety regulations.In conclusion, the ratemeter is a vital instrument across various fields, from healthcare to environmental science and engineering. Its ability to measure rates accurately has significant implications for safety, efficiency, and regulatory compliance. As technology continues to advance, the role of the ratemeter will likely expand, offering even greater capabilities for monitoring and analysis. Understanding the importance of the ratemeter not only enhances our knowledge of measurement techniques but also highlights the critical need for precision in scientific and industrial applications.

在科学测量领域，精确性和准确性至关重要。用于测量各种参数的基本仪器之一是ratemeter。ratemeter是一种用于测量某一现象速率的仪器，例如核物理中放射性衰变的速率，或工程应用中液体的流速。了解ratemeter的工作原理可以为我们提供其在不同领域应用的见解。在核医学和放射学领域，ratemeter的概念尤为重要。在这些领域，监测患者和医务人员的辐射暴露水平至关重要。ratemeter允许实时监测辐射水平，确保它们保持在安全范围内。这不仅对安全至关重要，也对有效的治疗计划至关重要。例如，在放射治疗期间，医生必须知道确切的剂量，以便将其传递到目标组织，同时最小化对周围健康组织的暴露。在这里，ratemeter发挥了关键作用。此外，ratemeter在环境科学中也很重要，通常用于测量空气和水中污染物的速率。通过量化有害物质的浓度，科学家可以评估工业活动对生态系统的影响。这些数据对于监管机构执行环境保护法律至关重要，对于研究人员制定污染缓解策略也至关重要。在工程学中，特别是在流体动力学领域，ratemeter用于测量液体通过管道的流速。准确的流量测量在石油和天然气、水供应和化工等各个行业中都是至关重要的。工程师依赖于ratemeter来确保系统高效且安全地运行。流量的任何差异都可能导致灾难性的故障，这使得ratemeter在这些环境中成为不可或缺的工具。ratemeter背后的技术多年来已经显著发展。传统的ratemeter依赖机械组件，现已被提供更高精度和更易于数据解释的数字设备所取代。现代的ratemeter通常结合了先进的传感器和软件，允许实时数据记录和分析。这一技术进步扩展了ratemeter的能力，使其适用于比以往更复杂的场景。此外，ratemeter与其他技术（如物联网）集成，为智能监测系统铺平了道路。这些系统可以在读数超过预定阈值时提供警报，从而使采取主动措施成为可能。这在工业环境中特别有用，因为对流速或辐射水平变化的快速反应可以防止事故并确保遵守安全法规。总之，ratemeter是各个领域的重要仪器，从医疗保健到环境科学再到工程学。其准确测量速率的能力对安全、效率和合规性具有重要意义。随着技术的不断进步，ratemeter的作用可能会进一步扩展，为监测和分析提供更大的能力。理解ratemeter的重要性不仅增强了我们对测量技术的认识，还突显了在科学和工业应用中对精确性的关键需求。