pyrophotometer
简明释义
英[/ˌpaɪroʊˈfoʊtəˌmɪtər/]美[/ˌpaɪroʊˈfoʊtəˌmɪtər/]
光度高温计
英英释义
单词用法
同义词
反义词
冷光度计 | The cold photometer is used to measure the light intensity in low-temperature environments. | 冷光度计用于测量低温环境中的光强度。 | |
热光度计 | A thermophotometer can be utilized for assessing thermal radiation. | 热光度计可用于评估热辐射。 |
例句
1.The thermometry principle and application of infrared thermometer are analyzed, and the comparison of the performance between pyrophotometer and infrared thermometer is made.
分析了红外测温仪的测温原理和应用,比较了光学高温计和红外测温仪的性能。
2.The thermometry principle and application of infrared thermometer are analyzed, and the comparison of the performance between pyrophotometer and infrared thermometer is made.
分析了红外测温仪的测温原理和应用,比较了光学高温计和红外测温仪的性能。
3.The researchers used a pyrophotometer to measure the light emissions from the sample during combustion.
研究人员使用热光度计测量样品在燃烧过程中的光 emissions。
4.With the help of a pyrophotometer, we were able to analyze the photoluminescence properties of the material.
借助热光度计,我们能够分析材料的光致发光特性。
5.The pyrophotometer is essential for studying the thermal stability of organic compounds.
热光度计对于研究有机化合物的热稳定性至关重要。
6.In the lab, the pyrophotometer provided accurate readings of energy output during the reaction.
在实验室中,热光度计提供了反应过程中能量输出的准确读数。
7.We calibrated the pyrophotometer to ensure precise measurements in our experiments.
我们校准了热光度计以确保实验中的精确测量。
作文
In the world of scientific research, precise measurements are crucial for obtaining reliable data. One such instrument that plays a vital role in this context is the pyrophotometer. A pyrophotometer is an advanced device used to measure the intensity of light emitted by a sample when it is subjected to heat. This unique capability allows researchers to analyze various materials and their properties under specific thermal conditions. The workings of a pyrophotometer are based on the principles of photometry and thermodynamics. When a sample is heated, it may emit light due to thermal radiation or luminescence. The pyrophotometer captures this emitted light and quantifies its intensity, providing valuable insights into the sample's characteristics. This process is essential in fields such as material science, chemistry, and even environmental studies, where understanding the behavior of substances under heat is critical. One of the significant applications of the pyrophotometer is in the study of phosphorescent materials. These materials can store energy from light and then re-emit it over time. By using a pyrophotometer, scientists can measure how much light is emitted and for how long, which helps in determining the efficiency and performance of these materials. Such studies are particularly important in developing new technologies, such as energy-efficient lighting and advanced display systems. Moreover, the pyrophotometer is also utilized in the field of pharmaceuticals. When testing new drugs, researchers need to understand how these compounds behave when exposed to heat. The pyrophotometer can help in assessing the stability of these drugs by measuring any light emitted during heating, thus indicating potential degradation or chemical changes. This information is vital for ensuring the safety and efficacy of pharmaceutical products. In addition to its applications in research, the pyrophotometer also has industrial uses. For example, in the manufacturing of ceramics and glass, it is essential to monitor the thermal properties of raw materials. By employing a pyrophotometer, manufacturers can optimize their processes, ensuring that the final products meet quality standards and perform as expected in their intended applications. Furthermore, the pyrophotometer contributes to environmental monitoring. It can be used to analyze pollutants and their interactions with light and heat, providing crucial data for environmental protection efforts. Understanding how different substances react under thermal stress can help in developing strategies to mitigate pollution and protect ecosystems. In conclusion, the pyrophotometer is an indispensable tool in various scientific and industrial fields. Its ability to measure light emitted from heated samples offers invaluable data that enhances our understanding of materials and their behaviors. As technology continues to advance, the applications of the pyrophotometer will likely expand, leading to new discoveries and innovations that benefit society as a whole. The importance of this instrument cannot be overstated, as it bridges the gap between theoretical research and practical applications, making it a cornerstone of modern science and industry.
在科学研究的世界中,精确的测量对于获得可靠的数据至关重要。一个在这种情况下发挥重要作用的仪器是pyrophotometer。pyrophotometer是一种先进的设备,用于测量样品在受热时发出的光的强度。这种独特的能力使研究人员能够分析各种材料及其在特定热条件下的特性。 pyrophotometer的工作原理基于光度学和热力学的原理。当样品被加热时,由于热辐射或发光,它可能会发出光。pyrophotometer捕捉到这种发射的光并量化其强度,从而提供有关样品特性的宝贵见解。这个过程在材料科学、化学甚至环境研究等领域中都是必不可少的,因为理解物质在热作用下的行为至关重要。 pyrophotometer的一个重要应用是在磷光材料的研究中。这些材料可以存储来自光的能量,然后在一段时间内重新发射。通过使用pyrophotometer,科学家可以测量发射的光量及其持续时间,这有助于确定这些材料的效率和性能。这类研究在开发新技术方面尤为重要,例如节能照明和先进显示系统。 此外,pyrophotometer还用于制药领域。在测试新药物时,研究人员需要了解这些化合物在暴露于热量时的行为。pyrophotometer可以通过测量加热过程中发出的任何光来帮助评估这些药物的稳定性,从而指示潜在的降解或化学变化。这些信息对于确保药品的安全性和有效性至关重要。 除了在研究中的应用外,pyrophotometer在工业中也有用途。例如,在陶瓷和玻璃制造中,监测原材料的热特性至关重要。通过采用pyrophotometer,制造商可以优化其工艺,确保最终产品符合质量标准,并在其预期应用中表现如预期。 此外,pyrophotometer还对环境监测做出了贡献。它可以用来分析污染物及其与光和热的相互作用,为环境保护工作提供关键数据。理解不同物质在热应力下的反应可以帮助制定减轻污染和保护生态系统的策略。 总之,pyrophotometer是各个科学和工业领域不可或缺的工具。它测量加热样品发出的光的能力提供了无价的数据,增强了我们对材料及其行为的理解。随着技术的不断进步,pyrophotometer的应用可能会扩展,导致新的发现和创新,造福整个社会。这个仪器的重要性不容小觑,因为它弥合了理论研究与实际应用之间的差距,使其成为现代科学和工业的基石。
文章标题:pyrophotometer的意思是什么
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