mechanical thermometry

简明释义

机械测温法

英英释义

例句

1.For outdoor activities, understanding mechanical thermometry can help in choosing the right gear.

对于户外活动，了解机械温度测量可以帮助选择合适的装备。

2.In industrial settings, mechanical thermometry is often used for monitoring equipment temperatures.

在工业环境中，机械温度测量通常用于监控设备温度。

3.The chef used mechanical thermometry to check the doneness of the meat precisely.

厨师使用机械温度测量来精确检查肉的熟度。

4.During the calibration process, we verified the accuracy of our mechanical thermometry instruments.

在校准过程中，我们验证了我们的机械温度测量仪器的准确性。

5.The laboratory relies on mechanical thermometry to ensure accurate temperature readings during experiments.

实验室依赖于机械温度测量来确保实验过程中温度读数的准确性。

作文

In the realm of science and engineering, temperature measurement plays a critical role in various applications, from industrial processes to environmental monitoring. Among the various methods used for measuring temperature, mechanical thermometry stands out as a traditional yet effective approach. This method relies on the physical properties of materials to measure temperature changes, making it a fundamental aspect of thermodynamic studies.Mechanical thermometry (机械温度计) typically involves the use of devices such as mercury-in-glass thermometers, bimetallic thermometers, and gas thermometers. Each of these devices operates on different principles but shares the common goal of providing accurate temperature readings. For instance, a mercury thermometer expands or contracts in response to temperature changes, allowing for precise readings based on the height of the mercury column. Similarly, bimetallic thermometers utilize two different metals that expand at different rates when heated, causing the device to bend and indicate the temperature on a dial.One of the advantages of mechanical thermometry is its simplicity and reliability. Unlike electronic sensors, which may require calibration and can be affected by electromagnetic interference, mechanical thermometers provide direct readings without the need for complex electronics. This makes them particularly useful in environments where electronic devices may fail or where simplicity is preferred.Moreover, mechanical thermometry has a long history, dating back centuries. The development of the first thermometers marked a significant milestone in scientific exploration, enabling researchers and engineers to quantify heat and temperature. Today, while digital and infrared thermometers have gained popularity due to their convenience and speed, mechanical thermometers remain widely used in many industries, including food production, HVAC systems, and laboratory settings.However, it is essential to recognize the limitations of mechanical thermometry. For example, these devices can be less responsive to rapid temperature changes compared to electronic counterparts. Additionally, factors such as ambient pressure and the physical condition of the thermometer can affect accuracy. Therefore, understanding the context and application of mechanical thermometry is crucial for obtaining reliable measurements.In conclusion, mechanical thermometry serves as a vital tool in the field of temperature measurement, combining simplicity with accuracy. Its historical significance and continued relevance in modern applications highlight the importance of this method in scientific and industrial practices. As technology advances, it is essential to appreciate the foundational techniques that paved the way for contemporary innovations in thermometry. The ongoing use of mechanical thermometry underscores the balance between traditional methods and modern technology in achieving precise temperature measurements.

在科学和工程领域，温度测量在各种应用中发挥着关键作用，从工业过程到环境监测。在用于测量温度的各种方法中，机械温度计作为一种传统而有效的方法脱颖而出。这种方法依赖于材料的物理特性来测量温度变化，使其成为热力学研究的基本方面。机械温度计（机械温度计）通常涉及使用如水银玻璃温度计、双金属温度计和气体温度计等设备。每种设备都基于不同的原理工作，但共享提供准确温度读数的共同目标。例如，水银温度计会根据温度变化而膨胀或收缩，从而使水银柱的高度提供精确读数。同样，双金属温度计利用两种不同金属在加热时以不同速率膨胀，导致设备弯曲并在刻度盘上指示温度。机械温度计的一个优点是其简单性和可靠性。与可能需要校准并且可能受到电磁干扰影响的电子传感器不同，机械温度计提供直接读数，无需复杂的电子设备。这使得它们在电子设备可能失效或更喜欢简单性的环境中特别有用。此外，机械温度计拥有悠久的历史，可以追溯到几个世纪前。第一台温度计的发展标志着科学探索的重要里程碑，使研究人员和工程师能够量化热量和温度。今天，尽管由于其便利性和速度，数字和红外温度计已获得广泛使用，但机械温度计在许多行业中仍然被广泛使用，包括食品生产、暖通空调系统和实验室环境。然而，必须认识到机械温度计的局限性。例如，与电子对手相比，这些设备对快速温度变化的响应可能较慢。此外，环境压力和温度计的物理状态等因素都可能影响准确性。因此，理解机械温度计的背景和应用对于获得可靠的测量至关重要。总之，机械温度计作为温度测量领域的重要工具，将简单性与准确性结合在一起。它的历史意义和在现代应用中的持续相关性突显了这种方法在科学和工业实践中的重要性。随着技术的进步，欣赏为当代温度计创新铺平道路的基础技术至关重要。机械温度计的持续使用强调了在实现精确温度测量时传统方法与现代技术之间的平衡。