technically pure

简明释义

工业钝的

英英释义

例句

1.While the product is technically pure, it may still have some practical limitations.

虽然该产品是技术上纯净的，但它可能仍然存在一些实际限制。

2.The scientist confirmed that the sample was technically pure before proceeding with the analysis.

科学家确认样本在进行分析之前是技术上纯净的。

3.In chemistry, a technically pure substance will yield accurate results in experiments.

在化学中，技术上纯净的物质将在实验中产生准确的结果。

4.The solution is technically pure, meaning it contains no impurities.

这个溶液是技术上纯净的，意味着它不含杂质。

5.A technically pure compound is essential for high-precision applications.

对于高精度应用来说，技术上纯净的化合物是必不可少的。

作文

In the realm of science, the term technically pure often refers to substances or processes that adhere strictly to the definitions and standards set by scientific principles. For example, when chemists talk about a technically pure compound, they mean that the substance has been isolated in such a way that it contains no impurities or contaminants. This level of purity is crucial in various applications, including pharmaceuticals, where even the smallest amount of an impurity can lead to adverse effects or render a medication ineffective.The concept of technically pure can also extend beyond chemistry into other fields such as mathematics and engineering. In mathematics, a solution is considered technically pure if it follows logical reasoning without any assumptions or approximations. For example, a proof that derives its conclusions solely from axioms and previously established theorems would be viewed as technically pure. This rigorous adherence to foundational principles is what makes mathematical proofs so powerful and universally accepted.Similarly, in engineering, a technically pure design might refer to an engineering solution that perfectly meets all specifications without any compromises. This could involve the use of materials that are of the highest quality and processes that are executed flawlessly. Such an approach ensures that the final product performs optimally and meets safety standards, which is crucial in fields like aerospace or civil engineering.However, the pursuit of technically pure solutions can sometimes lead to challenges. For instance, in real-world applications, achieving absolute purity may be impractical or impossible due to various factors such as cost, time constraints, or the inherent variability of materials. Therefore, engineers and scientists often have to find a balance between technically pure ideals and practical considerations. They may settle for a solution that is 'pure enough' to meet safety and performance standards, even if it doesn’t achieve the highest possible levels of purity.Moreover, the idea of technically pure can also be subjective, depending on the context and the specific requirements of a project. What is considered pure in one situation may not hold true in another. For instance, a pharmaceutical company may require a higher standard of purity compared to a food manufacturer, where some level of natural variation is acceptable. This subjectivity adds another layer of complexity to the concept of technically pure, highlighting the importance of context in evaluating purity standards.In conclusion, the term technically pure encapsulates a critical aspect of scientific and engineering practices. It signifies a commitment to excellence and precision, whether in the formulation of chemical compounds, the development of mathematical proofs, or the design of engineering solutions. Yet, it also serves as a reminder that while purity is a desirable goal, the realities of practical applications often require flexibility and compromise. Ultimately, understanding the nuances of technically pure allows professionals across various fields to navigate the delicate balance between idealism and pragmatism, ensuring that their work remains both effective and relevant in the ever-evolving landscape of science and technology.

在科学领域，术语technically pure通常指符合科学原则设定的定义和标准的物质或过程。例如，当化学家谈论technically pure化合物时，他们是指该物质已被孤立到没有杂质或污染物的程度。这种纯度在各种应用中至关重要，包括制药行业，因为即使是最小量的杂质也会导致不良反应或使药物失效。technically pure的概念还可以扩展到其他领域，如数学和工程。在数学中，如果一个解决方案严格遵循逻辑推理，没有任何假设或近似，那么它被视为technically pure。例如，一个仅从公理和先前建立的定理推导结论的证明将被视为technically pure。这种对基础原则的严格遵循使得数学证明如此强大且普遍接受。同样，在工程中，technically pure设计可能指的是完美满足所有规格而不妥协的工程解决方案。这可能涉及使用最高质量的材料和无可挑剔的执行过程。这种方法确保最终产品的最佳性能并符合安全标准，这在航空航天或土木工程等领域至关重要。然而，追求technically pure解决方案有时会带来挑战。例如，在现实应用中，实现绝对纯度可能因成本、时间限制或材料固有变异等各种因素而不切实际。因此，工程师和科学家常常需要在technically pure理想与实际考虑之间找到平衡。他们可能会选择一个“足够纯”的解决方案，以满足安全和性能标准，即使它没有达到可能的最高纯度水平。此外，technically pure的概念在不同上下文中也可能是主观的。某一情况下被认为是纯的标准在另一情况下可能不成立。例如，制药公司可能要求更高的纯度标准，而食品制造商则可能接受某种程度的自然变异。这种主观性为technically pure的概念增加了另一层复杂性，突显了在评估纯度标准时上下文的重要性。总之，术语technically pure概括了科学和工程实践中的一个关键方面。它象征着对卓越和精确的承诺，无论是在化学化合物的配制、数学证明的发展还是工程解决方案的设计中。然而，它也提醒我们，尽管纯度是一个理想目标，但实际应用的现实往往需要灵活性和妥协。最终，理解technically pure的细微差别使各个领域的专业人士能够驾驭理想主义与实用主义之间的微妙平衡，确保他们的工作在不断发展的科学和技术领域中保持有效和相关。