depth average

简明释义

平均深度

英英释义

例句

1.To ensure accurate data, we need to measure the depth average 深度平均值 over different seasons.

为了确保数据准确，我们需要在不同季节测量depth average 深度平均值。

2.The fisheries department uses the depth average 深度平均值 to manage fish populations effectively.

渔业部门利用depth average 深度平均值有效管理鱼类种群。

3.We calculated the depth average 深度平均值 to assess the habitat quality for aquatic life.

我们计算了depth average 深度平均值以评估水生生物的栖息地质量。

4.The river's flow rate was calculated using the depth average 深度平均值 of several measurement points.

河流的流速是通过多个测量点的depth average 深度平均值计算出来的。

5.The environmental study focused on the depth average 深度平均值 of pollutants in the lake.

环境研究集中在湖泊中污染物的depth average 深度平均值上。

作文

The concept of depth average is crucial in various fields, including science, engineering, and environmental studies. In simple terms, depth average refers to the mean value of a certain quantity over a specific depth range. This concept is particularly important when analyzing phenomena that vary with depth, such as temperature in oceans or the concentration of pollutants in water bodies. Understanding the depth average allows researchers and professionals to make informed decisions based on accurate data interpretation. For instance, in oceanography, scientists often study the temperature profile of the ocean at different depths. The depth average temperature can provide insights into the thermal structure of the ocean, which is essential for understanding climate change and its impacts on marine ecosystems. By calculating the depth average temperature, scientists can identify trends and anomalies that might indicate larger environmental shifts. In environmental engineering, the depth average is used to assess the distribution of contaminants in groundwater. By measuring the concentration of pollutants at various depths, engineers can calculate the depth average concentration, which helps in evaluating the extent of pollution and designing effective remediation strategies. This information is vital for protecting water resources and ensuring public health. Moreover, the depth average is not limited to physical measurements; it can also apply to social sciences. For example, in sociology, researchers might analyze the depth average of community engagement across different socioeconomic strata. By understanding how engagement varies with depth—meaning different levels of involvement or commitment—policymakers can develop targeted interventions to foster greater participation among underrepresented groups. Calculating the depth average typically involves integrating the measured values over the depth range of interest and then dividing by the total depth. This mathematical approach ensures that all relevant data points are considered, leading to a more accurate representation of the average condition at that depth. In conclusion, the depth average is a powerful tool that transcends various disciplines, providing valuable insights into complex systems. Whether in natural sciences, engineering, or social research, understanding and applying the concept of depth average enables professionals to analyze data more effectively and make better-informed decisions. As we continue to face global challenges, such as climate change and resource management, the importance of accurate measurements and averages cannot be overstated. Thus, mastering the concept of depth average will undoubtedly enhance our ability to tackle these issues head-on, ensuring a sustainable future for generations to come.

“深度平均”这一概念在科学、工程和环境研究等多个领域中至关重要。简单来说，“深度平均”是指在特定深度范围内某一数量的平均值。这个概念在分析随深度变化的现象时尤为重要，例如海洋中的温度或水体中污染物的浓度。理解“深度平均”使研究人员和专业人士能够根据准确的数据解释做出明智的决策。例如，在海洋学中，科学家通常研究不同深度的海洋温度剖面。“深度平均”温度可以提供关于海洋热结构的见解，这对于理解气候变化及其对海洋生态系统的影响至关重要。通过计算“深度平均”温度，科学家可以识别可能表明更大环境变化的趋势和异常。在环境工程中，“深度平均”用于评估地下水中污染物的分布。通过测量不同深度的污染物浓度，工程师可以计算“深度平均”浓度，这有助于评估污染的程度并设计有效的修复策略。这些信息对于保护水资源和确保公众健康至关重要。此外，“深度平均”不仅限于物理测量；它也可以应用于社会科学。例如，在社会学中，研究人员可能会分析不同社会经济阶层之间的社区参与的“深度平均”。通过了解参与如何随深度变化——即不同的参与或承诺水平——政策制定者可以制定针对性的干预措施，以促进被代表性不足群体的更大参与。计算“深度平均”通常涉及在感兴趣的深度范围内对测量值进行积分，然后除以总深度。这种数学方法确保所有相关数据点都被考虑在内，从而导致对该深度条件的更准确表示。总之，“深度平均”是一个强大的工具，超越了各个学科，为复杂系统提供了宝贵的见解。无论是在自然科学、工程还是社会研究中，理解和应用“深度平均”的概念使专业人士能够更有效地分析数据并做出更明智的决策。随着我们继续面临全球挑战，如气候变化和资源管理，准确测量和平均的重要性不容小觑。因此，掌握“深度平均”这一概念无疑将增强我们直接应对这些问题的能力，确保为子孙后代创造可持续的未来。