acceptable precision

简明释义

1. 容许精度; 2. 合格精度;

英英释义

例句

1.The measurements must be taken with acceptable precision to ensure the experiment's validity.

测量必须以可接受的精度进行，以确保实验的有效性。

2.In engineering, designs are often created with acceptable precision to meet safety standards.

在工程领域，设计通常以可接受的精度创建，以满足安全标准。

3.Survey data should be collected with acceptable precision to reflect public opinion accurately.

调查数据应以可接受的精度收集，以准确反映公众意见。

4.Scientists aim for acceptable precision in their experiments to draw reliable conclusions.

科学家在实验中追求可接受的精度，以得出可靠的结论。

5.The software calculates results with acceptable precision for financial forecasting.

该软件以可接受的精度计算财务预测结果。

作文

In the realm of scientific research and engineering, the concept of acceptable precision plays a crucial role in determining the reliability and validity of data. 可接受的精度 refers to the degree of accuracy that is deemed sufficient for a particular purpose or application. It is essential for researchers and engineers to define what level of precision is acceptable before they commence their work. This ensures that their findings are not only credible but also applicable in real-world scenarios.For instance, in the field of medicine, when developing a new drug, researchers must ensure that their measurements of dosage and efficacy meet acceptable precision. 可接受的精度 in this context might be defined as a margin of error that is small enough to ensure patient safety and treatment effectiveness. If the precision of the measurements is too low, it could lead to disastrous consequences, such as ineffective treatments or harmful side effects.Similarly, in engineering, when designing components for machinery, engineers must adhere to acceptable precision standards to ensure that parts fit together correctly and function as intended. 可接受的精度 in this case can be quantified using tolerances that dictate how much variation is permissible in the dimensions of the components. If the precision is not within these tolerances, the final product may fail, leading to increased costs and potential safety hazards.Moreover, the definition of acceptable precision can vary greatly between different fields and applications. In some cases, a precision level of 95% might be considered acceptable, while in others, it may need to be as high as 99.9%. Therefore, it is imperative for professionals to understand the specific requirements of their field and to communicate these needs clearly. 可接受的精度 should be established based on industry standards, regulatory guidelines, and the specific objectives of the project.In addition, the advancements in technology have significantly impacted the levels of acceptable precision that can be achieved. With the advent of more sophisticated measurement tools and techniques, researchers and engineers can attain higher levels of accuracy than ever before. However, this also raises the question of whether there is a point of diminishing returns; that is, investing more resources to achieve slightly better precision may not always be justifiable. Therefore, it is important to balance the pursuit of perfection with practical considerations, ensuring that the level of acceptable precision aligns with the goals and constraints of the project.In conclusion, acceptable precision is a fundamental concept in various fields that dictates the level of accuracy required for reliable results. Understanding and defining 可接受的精度 is vital for successful outcomes in research, engineering, and many other disciplines. By establishing clear standards and recognizing the impact of technology on precision, professionals can enhance the quality and applicability of their work, ultimately contributing to advancements in their respective fields.

在科学研究和工程领域，可接受的精度的概念在确定数据的可靠性和有效性方面起着至关重要的作用。acceptable precision指的是被认为对于特定目的或应用足够的准确度。在开始工作之前，研究人员和工程师必须定义什么水平的精度是可以接受的。这确保了他们的发现不仅可信，而且在现实世界中也适用。例如，在医学领域，当开发新药时，研究人员必须确保他们对剂量和功效的测量符合可接受的精度。在这种情况下，acceptable precision可能被定义为一个足够小的误差范围，以确保患者安全和治疗效果。如果测量的精度太低，可能会导致灾难性的后果，例如无效的治疗或有害的副作用。同样，在工程学中，当设计机器部件时，工程师必须遵守可接受的精度标准，以确保零件能够正确配合并按预期功能运行。在这种情况下，acceptable precision可以通过公差来量化，公差规定了组件尺寸中允许的变化量。如果精度不在这些公差范围内，最终产品可能会失败，导致成本增加和潜在的安全隐患。此外，可接受的精度的定义在不同的领域和应用之间可能大相径庭。在某些情况下，95%的精度水平可能被认为是可以接受的，而在其他情况下，可能需要高达99.9%。因此，专业人士必须理解其领域的具体要求，并清晰地传达这些需求。acceptable precision应根据行业标准、监管指南和项目的具体目标进行建立。此外，技术的进步显著影响了可以实现的可接受的精度水平。随着更复杂的测量工具和技术的出现，研究人员和工程师可以比以往任何时候都获得更高的准确度。然而，这也引发了一个问题，即是否存在收益递减的点；即，投入更多资源以获得稍微更好的精度可能并不总是合理的。因此，平衡追求完美与实际考虑是重要的，确保acceptable precision的水平与项目的目标和限制相一致。总之，acceptable precision是各个领域的一个基本概念，决定了可靠结果所需的准确度水平。理解和定义可接受的精度对于研究、工程和许多其他学科的成功成果至关重要。通过建立明确的标准并认识到技术对精度的影响，专业人士可以提高其工作的质量和适用性，最终为各自领域的进步做出贡献。