ultimate analysis

简明释义

元素分析

英英释义

例句

1.The study concluded that, in the ultimate analysis, education plays a critical role in reducing poverty.

研究得出结论，在最终分析中，教育在减少贫困方面起着关键作用。

2.The ultimate analysis of the data revealed patterns we had not previously noticed.

数据的最终分析揭示了我们之前未曾注意到的模式。

3.In the ultimate analysis, happiness is determined by our relationships with others.

在最终分析中，幸福由我们与他人的关系决定。

4.After much debate, it became clear that in the ultimate analysis, teamwork is essential for success.

经过多次辩论，显然在最终分析中，团队合作对成功至关重要。

5.In the ultimate analysis, we must consider the long-term effects of our actions on the environment.

在最终分析中，我们必须考虑我们行为对环境的长期影响。

作文

In the realm of scientific inquiry, one often encounters the term ultimate analysis, which refers to the process of determining the elemental composition of a substance. This method is crucial in various fields such as chemistry, material science, and environmental studies. By conducting an ultimate analysis, researchers can break down complex compounds into their fundamental components, allowing for a deeper understanding of their properties and behaviors.For instance, in the field of organic chemistry, an ultimate analysis involves analyzing a compound to determine the amounts of carbon, hydrogen, nitrogen, sulfur, and oxygen it contains. This information is essential for chemists to predict how a substance will react under different conditions, which is vital for developing new materials or pharmaceuticals. Without such analysis, the potential applications of these compounds would remain largely unexplored.Moreover, the implications of ultimate analysis extend beyond the laboratory. In environmental science, this technique is employed to assess pollutants in soil and water. By understanding the elemental makeup of these substances, scientists can devise strategies to mitigate their impact on ecosystems. For example, if a certain heavy metal is found in high concentrations, an ultimate analysis can help identify its source and inform remediation efforts.The significance of ultimate analysis is further highlighted in the context of energy resources. When evaluating fossil fuels, for instance, an ultimate analysis provides insights into their combustion properties and environmental impact. By knowing the elemental composition of coal, oil, or natural gas, energy producers can optimize combustion processes to reduce emissions and enhance efficiency. This not only benefits the economy but also contributes to global efforts in combating climate change.In addition to its practical applications, ultimate analysis also serves as a philosophical concept. It encourages individuals to look beyond surface appearances and seek a deeper understanding of the underlying factors that shape our world. In daily life, this approach can be applied to various situations, prompting us to analyze our decisions, relationships, and societal issues more critically. By engaging in an ultimate analysis of our choices, we can make more informed decisions that align with our values and goals.In conclusion, the term ultimate analysis encapsulates a fundamental aspect of scientific investigation and critical thinking. Whether in the laboratory, the environment, or our personal lives, the ability to analyze and understand the core components of any situation is invaluable. As we continue to face complex challenges in science and society, embracing the principles of ultimate analysis will undoubtedly lead to more effective solutions and a greater appreciation for the intricacies of the world around us.

在科学研究领域，人们常常会遇到“终极分析”这个术语，它指的是确定物质元素组成的过程。这种方法在化学、材料科学和环境研究等多个领域中至关重要。通过进行“终极分析”，研究人员可以将复杂的化合物分解为其基本成分，从而更深入地理解它们的性质和行为。例如，在有机化学领域，“终极分析”涉及分析一个化合物，以确定其所含的碳、氢、氮、硫和氧的数量。这些信息对于化学家预测物质在不同条件下的反应至关重要，这对于开发新材料或制药至关重要。如果没有这样的分析，这些化合物的潜在应用将仍然大部分未被探索。此外，“终极分析”的意义超越了实验室。在环境科学中，这项技术用于评估土壤和水中的污染物。通过了解这些物质的元素组成，科学家可以制定减轻其对生态系统影响的策略。例如，如果发现某种重金属的浓度过高，“终极分析”可以帮助识别其来源并指导修复工作。在能源资源的背景下，“终极分析”的重要性进一步得以强调。例如，在评估化石燃料时，“终极分析”提供了关于其燃烧特性和环境影响的见解。通过了解煤、石油或天然气的元素组成，能源生产者可以优化燃烧过程，以减少排放并提高效率。这不仅有利于经济发展，还有助于全球应对气候变化的努力。除了其实际应用外，“终极分析”还作为一种哲学概念，鼓励个人超越表面现象，寻求更深层次的理解，探讨塑造我们世界的根本因素。在日常生活中，这种方法可以应用于各种情况，促使我们更批判性地分析我们的决定、关系和社会问题。通过对我们的选择进行“终极分析”，我们可以做出更明智的决策，使其与我们的价值观和目标相一致。总之，“终极分析”这一术语概括了科学探究和批判性思维的一个基本方面。无论是在实验室、环境中还是在我们的个人生活中，分析和理解任何情况的核心组成部分的能力都是无价的。随着我们继续面临科学和社会中的复杂挑战，拥抱“终极分析”的原则无疑会带来更有效的解决方案，并更好地欣赏我们周围世界的复杂性。