temperature equilibrium

简明释义

温度平衡

英英释义

例句

1.When you take a hot cup of coffee outside on a cold day, it will lose heat until it reaches temperature equilibrium 温度平衡 with the surrounding air.

当你在寒冷的日子里把一杯热咖啡带到外面时，它会失去热量，直到它与周围空气达到温度平衡 温度平衡。

2.The process of cooling down a warm object in a cooler environment is an example of achieving temperature equilibrium 温度平衡.

在较冷环境中冷却一个温暖物体的过程是实现温度平衡 温度平衡的一个例子。

3.In a closed system, the heat transfer will eventually lead to temperature equilibrium 温度平衡 where all parts of the system reach the same temperature.

在一个封闭系统中，热量传递最终会导致温度平衡 温度平衡，使系统的所有部分达到相同的温度。

4.To ensure accurate measurements, scientists wait for temperature equilibrium 温度平衡 before taking readings of the substance's temperature.

为了确保测量准确，科学家在读取物质温度之前，等待温度平衡 温度平衡。

5.After a few minutes, the ice in your drink will melt until the drink and the ice reach temperature equilibrium 温度平衡.

几分钟后，你饮料中的冰会融化，直到饮料和冰达到温度平衡 温度平衡。

作文

Temperature is a fundamental concept in physics and plays a crucial role in our daily lives. One of the key principles related to temperature is known as temperature equilibrium, which refers to the state in which two or more bodies in thermal contact reach the same temperature and thus no longer transfer heat between them. This concept is essential in understanding heat transfer and thermodynamics, and it has numerous applications in various fields such as engineering, meteorology, and even cooking.When two objects at different temperatures come into contact, heat flows from the hotter object to the cooler one until they reach a state of temperature equilibrium. At this point, the thermal energy is distributed evenly, and the temperature remains constant. This principle can be observed in everyday situations, such as when you place a hot cup of coffee on a table. Initially, the coffee is much hotter than the table, and heat flows from the coffee to the table until both reach the same temperature. This process illustrates the second law of thermodynamics, which states that heat naturally flows from hot to cold.Understanding temperature equilibrium is vital for many scientific applications. For instance, in engineering, the design of heat exchangers relies heavily on this principle. Heat exchangers are devices used to transfer heat between two or more fluids without mixing them. By understanding how to achieve temperature equilibrium efficiently, engineers can create systems that optimize energy use, reduce waste, and improve overall performance.In meteorology, temperature equilibrium helps explain weather patterns and climate changes. The Earth's atmosphere is constantly in a state of flux, with heat being absorbed from the sun and redistributed around the planet. Understanding how different surfaces (like oceans, forests, and urban areas) reach temperature equilibrium can help meteorologists predict weather changes and understand climate dynamics.Furthermore, temperature equilibrium plays a significant role in cooking. When you cook food, you often need to ensure that the ingredients reach a certain temperature for safety and taste. For example, when roasting a chicken, it is important to allow the bird to rest after cooking so that the internal temperature can stabilize, achieving temperature equilibrium. This not only ensures that the meat is cooked through but also enhances its flavor and juiciness.In conclusion, temperature equilibrium is a fundamental concept that permeates various aspects of science and daily life. From engineering to cooking, understanding how heat transfer works and how to achieve temperature equilibrium can lead to improved efficiency, better predictions, and enhanced experiences. As we continue to explore the intricacies of thermodynamics, the significance of temperature equilibrium will undoubtedly remain a cornerstone of our understanding of heat and energy transfer.

温度是物理学中的一个基本概念，在我们的日常生活中起着至关重要的作用。与温度相关的一个关键原则被称为温度平衡，它指的是两个或多个处于热接触的物体达到相同温度的状态，从而不再相互传递热量。这个概念对于理解热传递和热力学至关重要，并在工程、气象甚至烹饪等多个领域有着广泛的应用。当两个不同温度的物体接触时，热量会从较热的物体流向较冷的物体，直到它们达到温度平衡。在这一点上，热能均匀分布，温度保持不变。这个过程可以在日常情况下观察到，例如当你把一杯热咖啡放在桌子上时。最初，咖啡的温度远高于桌子，热量从咖啡流向桌子，直到两者达到相同的温度。这个过程说明了热力学第二定律，即热量自然地从热物体流向冷物体。理解温度平衡对许多科学应用至关重要。例如，在工程学中，热交换器的设计在很大程度上依赖于这一原则。热交换器是用于在不混合的情况下在两个或多个流体之间传递热量的设备。通过理解如何有效地实现温度平衡，工程师可以创建优化能源使用、减少浪费并提高整体性能的系统。在气象学中，温度平衡帮助解释天气模式和气候变化。地球的大气层不断处于波动状态，热量从太阳吸收并在地球上重新分配。理解不同表面（如海洋、森林和城市地区）如何达到温度平衡可以帮助气象学家预测天气变化并理解气候动态。此外，温度平衡在烹饪中也发挥着重要作用。当你烹饪食物时，通常需要确保食材达到一定的温度以确保安全和口感。例如，在烤鸡时，重要的是在烹饪后让鸡肉静置，以便内部温度能够稳定，达到温度平衡。这不仅确保肉类熟透，还增强了其风味和多汁感。总之，温度平衡是一个基本概念，渗透到科学和日常生活的各个方面。从工程到烹饪，理解热传递的工作原理以及如何实现温度平衡可以提高效率，更好地预测和增强体验。在我们继续探索热力学的复杂性时，温度平衡的重要性无疑将继续成为我们理解热和能量传递的基石。