range of detector

简明释义

探测距离

英英释义

例句

1.In our lab, we utilize a range of detector 探测器的范围 types for various experiments.

在我们的实验室中，我们使用多种类型的探测器的范围进行各种实验。

2.The new security system includes a wide range of detector 探测器的范围 options to ensure maximum safety.

新的安全系统包括广泛的探测器的范围选项，以确保最大安全性。

3.The range of detector 探测器的范围 includes infrared, ultrasonic, and microwave sensors.

该探测器的范围包括红外线、超声波和微波传感器。

4.We need to assess the range of detector 探测器的范围 capabilities before purchasing.

在购买之前，我们需要评估探测器的范围能力。

5.The range of detector 探测器的范围 available in this model makes it suitable for different environments.

此型号中可用的探测器的范围使其适合不同环境。

作文

In the field of science and technology, the term range of detector refers to the variety of devices or instruments designed to identify and measure specific properties of physical phenomena. These detectors play a crucial role in various applications, including environmental monitoring, medical diagnostics, and industrial processes. Understanding the range of detector is essential for researchers and professionals who rely on accurate data collection and analysis.For instance, in environmental science, a wide range of detector types are used to monitor air quality, water purity, and soil contamination. Gas detectors can identify harmful gases in the atmosphere, while water quality sensors can measure pH levels, turbidity, and the presence of contaminants. The ability to select the appropriate range of detector for a specific application can significantly impact the effectiveness of environmental assessments and subsequent actions taken to mitigate pollution.In the medical field, the range of detector encompasses devices such as MRI machines, CT scanners, and blood glucose monitors. Each of these instruments has a unique function and operating principle, allowing healthcare professionals to diagnose and monitor various health conditions. For example, MRI machines utilize a magnetic field and radio waves to produce detailed images of organs and tissues, whereas blood glucose monitors use electrochemical sensors to provide real-time readings of glucose levels in patients with diabetes. Understanding the range of detector available in medical technology enables clinicians to choose the best diagnostic tools for their patients' needs.Moreover, in the realm of industrial applications, a diverse range of detector instruments are employed to ensure safety and efficiency in manufacturing processes. For instance, temperature sensors, pressure gauges, and flow meters are vital for monitoring production lines and maintaining optimal operating conditions. By leveraging the appropriate range of detector, industries can prevent equipment failures, reduce waste, and enhance overall productivity.The advancement of technology has led to the development of more sophisticated detectors that can operate across a broader spectrum of conditions. For example, modern radiation detectors can measure not only ionizing radiation but also non-ionizing types, expanding their applicability in fields such as nuclear energy and medical imaging. This broadening range of detector capabilities allows scientists and engineers to conduct more comprehensive studies and develop innovative solutions to complex problems.In conclusion, the concept of range of detector is integral to various scientific and industrial disciplines. From environmental monitoring to medical diagnostics and industrial applications, the ability to select and utilize the right detectors is paramount for obtaining accurate data and making informed decisions. As technology continues to evolve, the range of detector will undoubtedly expand, offering new possibilities for research, safety, and efficiency in numerous fields. Understanding this concept empowers professionals to harness the full potential of detection technologies, ultimately leading to better outcomes in their respective domains.

在科学和技术领域，术语探测器范围指的是设计用于识别和测量特定物理现象属性的各种设备或仪器。这些探测器在环境监测、医疗诊断和工业过程等多个应用中发挥着至关重要的作用。理解探测器范围对于依赖准确数据收集和分析的研究人员和专业人士而言是至关重要的。例如，在环境科学中，广泛的探测器范围类型被用于监测空气质量、水质和土壤污染。气体探测器可以识别大气中的有害气体，而水质传感器可以测量pH值、浊度和污染物的存在。选择适当的探测器范围对特定应用的影响可能会显著影响环境评估的有效性以及随后的污染缓解措施。在医疗领域，探测器范围包括MRI机器、CT扫描仪和血糖监测仪。这些仪器各自具有独特的功能和操作原理，使医疗专业人员能够诊断和监测各种健康状况。例如，MRI机器利用磁场和无线电波产生器官和组织的详细图像，而血糖监测仪则使用电化学传感器为糖尿病患者提供实时的血糖水平读数。理解医疗技术中的探测器范围使临床医生能够为患者的需求选择最佳的诊断工具。此外，在工业应用领域，各种探测器范围仪器被用于确保制造过程的安全性和效率。例如，温度传感器、压力计和流量计对于监控生产线和维持最佳操作条件至关重要。通过利用适当的探测器范围，工业可以防止设备故障、减少浪费并提高整体生产力。技术的进步导致了更复杂的探测器的发展，这些探测器可以在更广泛的条件下运行。例如，现代辐射探测器不仅可以测量电离辐射，还可以测量非电离类型，扩展了它们在核能和医学成像等领域的适用性。这种广泛的探测器范围能力使科学家和工程师能够进行更全面的研究，并开发出解决复杂问题的创新解决方案。总之，探测器范围的概念是各种科学和工业学科的核心。从环境监测到医疗诊断和工业应用，选择和利用正确探测器的能力对于获取准确数据和做出明智决策至关重要。随着技术的不断发展，探测器范围无疑会扩展，为众多领域的研究、安全和效率提供新的可能性。理解这一概念使专业人士能够充分利用检测技术的潜力，从而最终在各自领域取得更好的成果。