density distribution

简明释义

密度分布

英英释义

例句

1.In urban planning, understanding the density distribution 密度分布 of populations can help in resource allocation.

在城市规划中，了解人口的density distribution 密度分布可以帮助资源分配。

2.The density distribution 密度分布 of traffic flow is crucial for designing efficient road systems.

交通流量的density distribution 密度分布对于设计高效的道路系统至关重要。

3.The density distribution 密度分布 of trees in the forest was mapped to assess biodiversity.

森林中树木的density distribution 密度分布被绘制出来以评估生物多样性。

4.Researchers used a histogram to visualize the density distribution 密度分布 of test scores.

研究人员使用直方图来可视化测试分数的density distribution 密度分布。

5.The scientist analyzed the density distribution 密度分布 of particles in the sample to understand their behavior.

科学家分析了样本中颗粒的density distribution 密度分布以了解它们的行为。

作文

Density distribution is a fundamental concept in various fields such as statistics, physics, and environmental science. It refers to the way in which a quantity is distributed over a certain area or volume, indicating how dense or concentrated that quantity is in different regions. Understanding density distribution (密度分布) is crucial for analyzing data, making predictions, and solving real-world problems.In statistics, density distribution (密度分布) often pertains to probability density functions (PDFs). These functions describe the likelihood of a random variable falling within a particular range of values. For example, if we were to analyze the heights of individuals in a population, the density distribution (密度分布) would show us where most heights cluster and how they spread out. This helps researchers understand the characteristics of the population and make informed decisions based on the data.In physics, density distribution (密度分布) can refer to the distribution of mass in an object or the distribution of particles in a given space. For instance, when studying celestial bodies like stars or planets, scientists examine their density distribution (密度分布) to understand their structure and behavior. A star with a high density distribution (密度分布) might indicate that it is more massive or has undergone specific evolutionary processes, while a lower density distribution (密度分布) could suggest a different evolutionary path.Environmental scientists also utilize the concept of density distribution (密度分布) when studying populations of species within ecosystems. By mapping the density distribution (密度分布) of a particular species, researchers can identify areas where the species thrives and areas where it is declining. This information is vital for conservation efforts, as it allows scientists to implement strategies to protect endangered species and restore their habitats.Moreover, density distribution (密度分布) plays a significant role in urban planning and resource management. City planners analyze the density distribution (密度分布) of the population to make decisions about infrastructure, public services, and transportation. Understanding where people live and how densely populated certain areas are can help ensure that resources are allocated efficiently and that communities have access to necessary services.In conclusion, the concept of density distribution (密度分布) is essential across multiple disciplines. Whether in statistics, physics, environmental science, or urban planning, understanding how a quantity is distributed can lead to better insights and more effective solutions. As we continue to gather and analyze data in our increasingly complex world, mastering the idea of density distribution (密度分布) will be crucial for researchers, policymakers, and scientists alike. By recognizing the patterns and implications of density distribution (密度分布), we can work towards a more informed and sustainable future.

密度分布是统计学、物理学和环境科学等多个领域的基本概念。它指的是某个数量在特定区域或体积内的分布方式，表明该数量在不同区域的密度或集中程度。理解density distribution（密度分布）对于分析数据、做出预测和解决现实问题至关重要。在统计学中，density distribution（密度分布）通常与概率密度函数（PDF）相关。这些函数描述了随机变量落在特定值范围内的可能性。例如，如果我们分析一个人群的身高，density distribution（密度分布）将显示大多数身高聚集在哪里，以及它们如何分散。这有助于研究人员了解该人群的特征，并根据数据做出明智的决策。在物理学中，density distribution（密度分布）可以指物体中质量的分布或给定空间中粒子的分布。例如，在研究天体如恒星或行星时，科学家会检查它们的density distribution（密度分布），以了解它们的结构和行为。具有高density distribution（密度分布）的恒星可能表明它更为庞大或经历了特定的演化过程，而较低的density distribution（密度分布）则可能暗示着不同的演化路径。环境科学家在研究生态系统中物种的种群时也会利用density distribution（密度分布）这一概念。通过绘制特定物种的density distribution（密度分布），研究人员可以识别出该物种繁荣的区域和衰退的区域。这些信息对于保护工作至关重要，因为它使科学家能够实施保护濒危物种和恢复其栖息地的策略。此外，density distribution（密度分布）在城市规划和资源管理中也发挥着重要作用。城市规划者分析人口的density distribution（密度分布），以便做出基础设施、公共服务和交通的决策。了解人们的居住地和某些地区的人口密度可以帮助确保资源得到有效配置，并使社区能够获得必要的服务。总之，density distribution（密度分布）这一概念在多个学科中至关重要。无论是在统计学、物理学、环境科学还是城市规划中，理解数量的分布方式都可以带来更好的见解和更有效的解决方案。随着我们在日益复杂的世界中继续收集和分析数据，掌握density distribution（密度分布）的理念对于研究人员、政策制定者和科学家来说将是至关重要的。通过识别density distribution（密度分布）的模式和影响，我们可以朝着一个更有信息和可持续的未来努力。