cold measurement

简明释义

冷测定

英英释义

例句

1.Using cold measurement, the team was able to evaluate the thermal conductivity of the new alloy.

通过使用冷测量，团队能够评估新合金的热导率。

2.The scientist used a cold measurement to determine the temperature of the liquid nitrogen, ensuring accurate results.

科学家使用冷测量来确定液氮的温度，以确保结果准确。

3.In the lab, we often rely on cold measurement techniques to assess the properties of superconductors.

在实验室中，我们经常依赖冷测量技术来评估超导体的性质。

4.The engineer noted that cold measurement is crucial for testing materials at low temperatures.

工程师指出，冷测量对于在低温下测试材料至关重要。

5.The cold measurement method helped researchers understand how certain materials behave when frozen.

这种冷测量方法帮助研究人员了解某些材料在冻结时的表现。

作文

In the realm of science and engineering, precision is paramount. One of the techniques that has gained attention in recent years is referred to as cold measurement. This term encompasses a variety of methods used to gather data without significantly altering the conditions of the environment being studied. Understanding cold measurement is essential for researchers and engineers alike, as it allows for the collection of accurate data that reflects the true state of a system. Traditionally, measurements taken in scientific experiments often involve some degree of interference with the subject being measured. For example, when measuring the temperature of a substance, one might introduce a thermometer that could affect the thermal equilibrium of the system. However, with cold measurement, the goal is to minimize such disturbances. This is particularly important in fields like thermodynamics, where even slight changes can lead to significant discrepancies in results.One common application of cold measurement is in the field of materials science, where researchers seek to understand the properties of new materials at various temperatures. By employing cold measurement techniques, scientists can assess how materials behave under different thermal conditions without introducing heat from measuring devices. This method enables them to gather data that is not skewed by external influences, thus providing a clearer picture of material properties.Moreover, cold measurement is crucial in the development of sensitive electronic devices. These devices often operate under very specific temperature ranges, and any alteration in temperature during measurement can lead to erroneous readings. By utilizing cold measurement techniques, engineers can ensure that they are obtaining reliable data that accurately represents the performance of these devices in real-world conditions.The significance of cold measurement extends beyond just scientific research; it also has practical implications in various industries. For instance, in the food industry, ensuring that temperature measurements during storage and transportation do not alter the quality of perishable goods is vital. Here, cold measurement techniques can help monitor conditions without compromising the integrity of the products.In conclusion, the concept of cold measurement plays a critical role in the accuracy and reliability of data collection across multiple disciplines. By minimizing the impact of measurement tools on the subjects being studied, researchers and engineers can obtain results that are more reflective of actual conditions. As technology advances and the demand for precision increases, the importance of mastering cold measurement techniques will only continue to grow. Embracing these methods will not only enhance the quality of scientific research but also improve the efficacy of industrial processes, ultimately leading to better products and innovations in our daily lives.

在科学和工程领域，精确性至关重要。近年来，一种被称为冷测量的技术引起了人们的关注。这个术语涵盖了多种方法，用于在不显著改变被研究环境条件的情况下收集数据。理解冷测量对研究人员和工程师来说都是至关重要的，因为它允许收集反映系统真实状态的准确数据。传统上，在科学实验中进行的测量通常会对被测对象产生一定程度的干扰。例如，在测量物质的温度时，可能会引入一个温度计，从而影响系统的热平衡。然而，通过冷测量，目标是最小化这种干扰。这在热力学等领域尤为重要，因为即使是微小的变化也可能导致结果的显著差异。冷测量的一个常见应用是在材料科学领域，研究人员希望了解新材料在不同温度下的性质。通过采用冷测量技术，科学家可以评估材料在不同热条件下的表现，而不会引入来自测量设备的热量。这种方法使他们能够收集不受外界影响的数据，从而更清晰地了解材料特性。此外，冷测量在敏感电子设备的发展中至关重要。这些设备通常在非常特定的温度范围内运行，而在测量过程中任何温度的改变都可能导致错误的读数。通过利用冷测量技术，工程师可以确保获得可靠的数据，准确反映这些设备在实际条件下的性能。冷测量的重要性不仅限于科学研究，它在各个行业也具有实际意义。例如，在食品行业，确保在存储和运输过程中温度测量不会影响易腐商品的质量至关重要。在这里，冷测量技术可以帮助监控条件，而不损害产品的完整性。总之，冷测量的概念在多个学科的数据收集的准确性和可靠性中发挥着关键作用。通过最小化测量工具对被研究对象的影响，研究人员和工程师可以获得更能反映实际条件的结果。随着技术的进步和对精确性需求的增加，掌握冷测量技术的重要性只会继续增长。采用这些方法不仅会提高科学研究的质量，还将改善工业流程的效率，最终带来更好的产品和我们日常生活中的创新。