range of detection

简明释义

探测距离

英英释义

例句

1.The laboratory reported an improved range of detection for the chemical tests they conducted.

实验室报告了他们进行的化学测试的检测范围有所改善。

2.In environmental studies, the range of detection for pollutants can vary significantly.

在环境研究中，污染物的检测范围可能会有显著差异。

3.Understanding the range of detection helps in assessing the reliability of the test results.

理解检测范围有助于评估测试结果的可靠性。

4.The range of detection for the new drug was established during clinical trials.

在临床试验中确定了新药的检测范围。

5.The scientist measured the range of detection to determine how sensitive the new sensor is.

科学家测量了检测范围以确定新传感器的灵敏度。

作文

The concept of the range of detection is crucial in various fields, such as environmental science, medicine, and technology. It refers to the span of conditions or parameters under which a particular measurement or observation can be reliably made. Understanding this range is essential for ensuring accurate data collection and analysis. For instance, in environmental monitoring, the range of detection of pollutants in water can determine the effectiveness of treatment processes and the health of aquatic ecosystems. If the detection range is too narrow, harmful substances might go unnoticed, leading to severe ecological consequences.In the medical field, the range of detection plays a vital role in diagnostic tests. For example, a blood test designed to detect specific biomarkers must have an appropriate range of detection to identify diseases accurately. If the test can only detect high levels of a biomarker, early-stage diseases may be missed, resulting in delayed treatment and poorer patient outcomes. Therefore, ensuring that diagnostic tools have a wide enough range of detection is critical for effective healthcare delivery.Similarly, in technology, particularly in sensor development, the range of detection defines how well a device can measure or detect certain phenomena. For example, a smoke detector needs to have an adequate range of detection to sense smoke at varying concentrations. If the range is limited, it may fail to alert occupants in time, leading to dangerous situations. Engineers and designers must carefully consider the range of detection when developing safety devices to ensure they function optimally under different conditions.Moreover, the range of detection is not static; it can change based on technological advancements and methodological improvements. As new techniques are developed, the ability to detect smaller quantities or a wider variety of substances increases. This evolution can significantly impact research and industry practices. For instance, advancements in nanotechnology have expanded the range of detection for certain chemicals, allowing scientists to detect trace amounts that were previously undetectable. This capability opens up new avenues for research and application in various fields, including pharmaceuticals and materials science.In conclusion, the range of detection is a fundamental aspect that influences the reliability and accuracy of measurements across different domains. Whether in environmental science, medicine, or technology, understanding and optimizing this range is essential for achieving desired outcomes. As we continue to innovate and improve our detection methods, we must remain mindful of the implications of the range of detection on our ability to understand and interact with the world around us. By doing so, we can enhance our capacity to address challenges and make informed decisions based on accurate data.

“检测范围”这一概念在环境科学、医学和技术等多个领域至关重要。它指的是在特定测量或观察可以可靠进行的条件或参数的范围。理解这一范围对于确保准确的数据收集和分析至关重要。例如，在环境监测中，水中污染物的检测范围可以决定处理过程的有效性及水生生态系统的健康。如果检测范围过窄，有害物质可能会被忽视，从而导致严重的生态后果。在医学领域，检测范围在诊断测试中发挥着至关重要的作用。例如，旨在检测特定生物标志物的血液测试必须具有适当的检测范围以准确识别疾病。如果该测试只能检测到高水平的生物标志物，早期疾病可能会被遗漏，导致治疗延迟和患者预后不良。因此，确保诊断工具具有足够宽泛的检测范围对于有效的医疗服务至关重要。同样，在技术领域，特别是在传感器开发中，检测范围定义了设备如何能够测量或检测某些现象。例如，烟雾探测器需要具有足够的检测范围以在不同浓度下感知烟雾。如果范围有限，它可能无法及时发出警报，从而导致危险情况。工程师和设计师在开发安全设备时必须仔细考虑检测范围，以确保其在不同条件下的最佳功能。此外，检测范围并不是静态的；它可以根据技术进步和方法改进而变化。随着新技术的发展，检测更小数量或更广泛种类物质的能力也在增加。这一演变对研究和行业实践产生了重大影响。例如，纳米技术的进步扩展了某些化学物质的检测范围，使科学家能够检测到以前无法检测的微量。这一能力为制药和材料科学等多个领域的研究和应用开辟了新的途径。总之，检测范围是影响不同领域测量可靠性和准确性的基本方面。无论是在环境科学、医学还是技术中，理解和优化这一范围对于实现预期结果至关重要。随着我们不断创新和改进检测方法，我们必须时刻关注检测范围对我们理解和与周围世界互动能力的影响。通过这样做，我们可以增强应对挑战的能力，并基于准确的数据做出明智的决策。