shy measurement

简明释义

缺尺

英英释义

例句

1.When taking the dimensions of the room, he used a shy measurement to leave room for furniture.

在测量房间的尺寸时，他使用了一个shy measurement以留出家具空间。

2.The architect's plans included a shy measurement for the ceiling height to accommodate future changes.

建筑师的计划中包含了一个shy measurement以适应未来的变化，考虑到天花板高度。

3.In the lab, we often apply a shy measurement approach to avoid overestimating results.

在实验室，我们经常采用shy measurement的方法，以避免高估结果。

4.The shy measurement technique helped the team create a more flexible project timeline.

使用shy measurement技术帮助团队制定了更灵活的项目时间表。

5.The engineer decided to use a shy measurement for the new bridge design to ensure safety.

工程师决定在新桥设计中使用shy measurement以确保安全。

作文

In today's world, measurement plays a crucial role in various fields, from science and engineering to everyday life. One term that often comes up in discussions about measurement is shy measurement. This concept can be understood as a form of measurement that is hesitant or indirect, often resulting from a lack of confidence or clarity in the process of quantifying something. To better understand this term, let’s explore its implications and applications through different lenses.Firstly, shy measurement can be seen in scientific research where the parameters of an experiment might be inadequately defined. For example, a researcher may want to measure the growth rate of a plant under varying light conditions but may not specify the exact amount of light each plant receives. This ambiguity leads to results that are difficult to interpret and can skew the findings. The hesitance to precisely define the parameters reflects a shy measurement, which can ultimately undermine the validity of the research.Secondly, in engineering, shy measurement can manifest during the design phase of a project. Engineers often rely on precise measurements to ensure that components fit together properly. However, if an engineer is unsure about certain dimensions and decides to estimate rather than measure accurately, this could lead to significant issues down the line. Such practices not only compromise the integrity of the design but also increase the risk of failure in the final product. Therefore, it is essential for engineers to avoid shy measurement by using accurate tools and techniques to gather data.Moreover, shy measurement is prevalent in everyday decision-making. Consider a scenario where someone is trying to lose weight. They might weigh themselves but feel uncertain about the accuracy of their scale, leading them to avoid weighing themselves regularly. This reluctance to engage with the measurement can hinder their progress and make it difficult to track changes over time. In this case, the individual’s hesitation reflects a shy measurement approach that can impede their goals.Furthermore, in the realm of education, teachers often face challenges in assessing students’ performances. A teacher may rely on informal observations rather than formal assessments due to a lack of confidence in their evaluation methods. This results in a shy measurement of student understanding, which can affect how effectively they address learning gaps. To enhance educational outcomes, it is vital for educators to adopt clear and structured assessment strategies that move away from shy measurement.In conclusion, shy measurement represents a reluctance to engage fully with the measurement process, whether in scientific research, engineering, personal health, or education. Recognizing the implications of this concept is essential for improving accuracy and effectiveness in various fields. By striving to eliminate shy measurement from our practices, we can foster greater confidence in our ability to quantify and understand the world around us. This, in turn, will lead to better decision-making, enhanced research outcomes, and improved overall performance in numerous aspects of life.

在当今世界，测量在科学、工程以及日常生活等多个领域中发挥着至关重要的作用。一个在讨论测量时经常出现的术语是shy measurement。这个概念可以理解为一种犹豫或间接的测量形式，通常源于对量化某事过程缺乏信心或清晰度。为了更好地理解这个术语，让我们通过不同的视角探讨它的含义和应用。首先，shy measurement可以在科学研究中看到，其中实验的参数可能定义得不够明确。例如，研究人员可能想要测量植物在不同光照条件下的生长速率，但可能没有具体说明每株植物所接受的确切光照量。这种模糊性导致结果难以解释，并可能扭曲研究发现。对参数的精确定义的犹豫反映了shy measurement，最终可能破坏研究的有效性。其次，在工程领域，shy measurement可能在项目设计阶段表现出来。工程师通常依赖精确的测量来确保组件能够正确地组合在一起。然而，如果一位工程师对某些尺寸不确定，决定估算而不是准确测量，这可能会导致后续的重大问题。这种做法不仅妨碍了设计的完整性，还增加了最终产品失败的风险。因此，工程师必须避免shy measurement，使用准确的工具和技术来收集数据。此外，shy measurement在日常决策中也很常见。考虑一个试图减肥的场景。他们可能会称重，但对秤的准确性感到不确定，从而导致他们避免定期称重。在这种情况下，个人的犹豫反映了shy measurement的方法，这可能阻碍他们的目标。为了更好地追踪变化，个体需要克服这种犹豫。进一步说，在教育领域，教师在评估学生表现时经常面临挑战。由于对评估方法缺乏信心，教师可能依赖非正式观察而不是正式评估。这导致对学生理解的shy measurement，影响他们有效解决学习差距的能力。为了提高教育成果，教育工作者必须采用明确和结构化的评估策略，以摆脱shy measurement。总之，shy measurement代表了一种对测量过程的完全参与的犹豫，无论是在科学研究、工程、个人健康还是教育中。认识到这一概念的影响对于改善各个领域的准确性和有效性至关重要。通过努力消除我们实践中的shy measurement，我们可以增强对量化和理解周围世界能力的信心。这反过来将导致更好的决策、更优秀的研究成果以及在生活的多个方面的整体表现的提高。