sensitivity range

简明释义

灵敏度范围

英英释义

例句

1.Adjusting the sensitivity range can help improve the accuracy of the measurements.

调整sensitivity range可以帮助提高测量的准确性。

2.The device operates effectively within a sensitivity range of 10 to 100 dB.

该设备在10到100分贝的sensitivity range内有效运行。

3.The sensor's sensitivity range allows it to detect even the faintest signals.

传感器的sensitivity range使其能够检测到微弱的信号。

4.Before calibration, it's important to know the sensitivity range of the instrument.

在校准之前，了解仪器的sensitivity range是很重要的。

5.In medical devices, the sensitivity range is crucial for detecting small changes in patient conditions.

在医疗设备中，sensitivity range对检测患者状况的细微变化至关重要。

作文

In the realm of scientific research and data analysis, the term sensitivity range plays a crucial role in understanding how variables interact with one another. The sensitivity range refers to the spectrum within which a particular variable can change without significantly affecting the outcome of a system or model. This concept is particularly important in fields such as economics, environmental science, and engineering, where precise measurements and predictions are essential for effective decision-making.For instance, consider an environmental scientist studying the impact of pollutants on local wildlife. By determining the sensitivity range of a specific pollutant's concentration, the scientist can identify the levels at which the wildlife begins to show adverse effects. If the concentration remains within this sensitivity range, the wildlife may thrive; however, if it exceeds this range, significant harm could ensue. Thus, understanding the sensitivity range allows scientists to set regulations and guidelines that protect ecosystems from harmful substances.In economic modeling, the sensitivity range is equally vital. Economists often use models to predict the effects of changes in policy or market conditions. By analyzing the sensitivity range of key economic indicators, such as interest rates or inflation, economists can forecast potential outcomes under various scenarios. This predictive capacity enables policymakers to make informed decisions that can stabilize or stimulate the economy.Moreover, in engineering, the concept of sensitivity range is used to evaluate the performance of systems and components. Engineers must understand how changes in design parameters affect the overall functionality of a product. For example, in the automotive industry, engineers might assess the sensitivity range of a vehicle's fuel efficiency based on factors like weight, aerodynamics, and engine performance. Recognizing the sensitivity range helps engineers optimize designs to ensure safety, efficiency, and cost-effectiveness.The importance of the sensitivity range extends beyond scientific and technical fields. In everyday life, individuals encounter situations where understanding the sensitivity range can lead to better choices. For instance, when managing personal finances, one must recognize the sensitivity range of their budget concerning income and expenses. Knowing how much one can spend without jeopardizing savings or incurring debt is crucial for financial stability.In conclusion, the concept of sensitivity range is integral to various disciplines, offering valuable insights into how systems respond to changes. Whether in environmental science, economics, engineering, or personal finance, understanding the sensitivity range equips individuals and professionals with the knowledge to make informed decisions. By recognizing the limits and thresholds within which variables operate, we can better navigate complexities and uncertainties in both our professional and personal lives.

在科学研究和数据分析的领域中，术语灵敏度范围在理解变量之间的相互作用方面起着至关重要的作用。灵敏度范围指的是一个特定变量可以变化的范围，而不会显著影响系统或模型的结果。这个概念在经济学、环境科学和工程等领域尤其重要，因为精确的测量和预测对于有效决策至关重要。例如，考虑一位环境科学家正在研究污染物对当地野生动物的影响。通过确定特定污染物浓度的灵敏度范围，科学家可以识别出野生动物开始表现出不良影响的水平。如果浓度保持在这个灵敏度范围内，野生动物可能会繁荣；然而，如果超过这个范围，可能会造成重大伤害。因此，理解灵敏度范围使科学家能够设定保护生态系统免受有害物质影响的法规和指南。在经济建模中，灵敏度范围同样至关重要。经济学家常常使用模型来预测政策或市场条件变化的影响。通过分析关键经济指标（如利率或通货膨胀）的灵敏度范围，经济学家可以在各种情景下预测潜在结果。这种预测能力使得政策制定者能够做出明智的决策，从而稳定或刺激经济。此外，在工程领域，灵敏度范围的概念用于评估系统和组件的性能。工程师必须了解设计参数的变化如何影响产品的整体功能。例如，在汽车工业中，工程师可能会评估车辆燃油效率的灵敏度范围，该范围基于重量、空气动力学和发动机性能等因素。认识到灵敏度范围有助于工程师优化设计，以确保安全、高效和成本效益。灵敏度范围的重要性超越了科学和技术领域。在日常生活中，个人会遇到理解灵敏度范围能导致更好选择的情况。例如，在管理个人财务时，人们必须认识到预算相对于收入和支出的灵敏度范围。知道自己可以花费多少而不危及储蓄或产生债务，对于财务稳定至关重要。总之，灵敏度范围的概念是各个学科的核心，为我们提供了有关系统如何响应变化的宝贵见解。无论是在环境科学、经济学、工程还是个人财务中，理解灵敏度范围使个人和专业人士能够获得做出明智决策所需的知识。通过认识到变量运作的限制和阈值，我们可以更好地应对工作和生活中的复杂性和不确定性。