caloric radiation

简明释义

热辐射

英英释义

例句

1.Fireplaces produce caloric radiation that can warm a room efficiently.

壁炉产生的热辐射可以有效地温暖房间。

2.Thermal imaging cameras can detect caloric radiation emitted from objects.

热成像相机可以探测到物体发出的热辐射。

3.In space, caloric radiation plays a crucial role in the temperature regulation of spacecraft.

在太空中，热辐射在航天器的温度调节中起着至关重要的作用。

4.In cooking, caloric radiation is utilized by ovens to heat food evenly.

在烹饪中，烤箱利用热辐射均匀加热食物。

5.The sun emits energy through caloric radiation, which warms the Earth.

太阳通过热辐射发出能量，温暖地球。

作文

Caloric radiation is a fascinating concept that pertains to the transfer of heat energy through electromagnetic waves, particularly infrared radiation. This phenomenon is crucial in various fields, including physics, engineering, and environmental science. Understanding caloric radiation (热辐射) allows us to comprehend how heat is transferred not only in our daily lives but also in natural processes and technological applications. To begin with, it is essential to recognize that all objects emit thermal radiation based on their temperature. According to the Stefan-Boltzmann law, the amount of energy radiated increases significantly with temperature. For instance, a hot stove emits more caloric radiation (热辐射) than a cold one, which is why we can feel the heat when we approach it. This principle is not limited to artificial sources of heat; it also applies to natural phenomena such as the sun, which is a massive source of caloric radiation (热辐射) that warms our planet and sustains life. Moreover, caloric radiation (热辐射) plays a vital role in climate science. The Earth absorbs solar radiation during the day and re-emits it as infrared radiation at night. This process is essential for maintaining the planet's energy balance. However, human activities, such as burning fossil fuels, have increased the concentration of greenhouse gases in the atmosphere, trapping more caloric radiation (热辐射) and leading to global warming. Understanding this relationship is critical for developing strategies to mitigate climate change and protect our environment. In engineering, caloric radiation (热辐射) is a key consideration in the design of heating systems, insulation materials, and energy-efficient buildings. Engineers must account for how heat is transferred through radiation to optimize energy consumption and improve comfort levels in residential and commercial spaces. For example, reflective materials can be used to minimize unwanted caloric radiation (热辐射) from the sun, thereby reducing the need for air conditioning in hot climates. Furthermore, caloric radiation (热辐射) is also significant in the field of thermodynamics. It helps explain various processes, such as how thermal equilibrium is achieved between two bodies at different temperatures. When two objects come into contact, heat flows from the hotter object to the cooler one until both reach the same temperature. This transfer of energy can also occur through caloric radiation (热辐射), which does not require direct contact between the objects. In conclusion, caloric radiation (热辐射) is an integral part of our understanding of heat transfer and its implications in various scientific and practical contexts. From the warmth of the sun that nurtures life on Earth to the design of energy-efficient buildings, the principles governing caloric radiation (热辐射) are fundamental to both nature and technology. As we continue to explore and innovate, a deeper understanding of this concept will enable us to harness its potential for a sustainable future.

热辐射是一个迷人的概念，涉及通过电磁波（特别是红外辐射）传递热能。这种现象在物理学、工程学和环境科学等多个领域至关重要。理解热辐射（caloric radiation）使我们能够理解热量是如何在我们的日常生活中以及在自然过程和技术应用中转移的。首先，必须认识到所有物体根据其温度发出热辐射。根据斯特藩-玻尔兹曼定律，辐射的能量随着温度的显著增加而增加。例如，一个热炉发出的热辐射（caloric radiation）比冷炉多，这就是为什么当我们靠近它时可以感受到热量。这个原理不仅限于人造热源，它也适用于自然现象，例如太阳，它是一个巨大的热辐射（caloric radiation）源，温暖着我们的星球并维持生命。此外，热辐射（caloric radiation）在气候科学中发挥着重要作用。地球在白天吸收太阳辐射，并在晚上以红外辐射重新发射。这一过程对维持地球的能量平衡至关重要。然而，人类活动，如燃烧化石燃料，增加了大气中温室气体的浓度，捕获了更多的热辐射（caloric radiation），导致全球变暖。理解这种关系对于制定减缓气候变化和保护环境的策略至关重要。在工程学中，热辐射（caloric radiation）是设计供热系统、绝缘材料和节能建筑时的重要考虑因素。工程师必须考虑热量通过辐射传递的方式，以优化能源消耗并提高住宅和商业空间的舒适度。例如，反射材料可用于最小化来自太阳的不必要的热辐射（caloric radiation），从而减少炎热气候中空调的需求。此外，热辐射（caloric radiation）在热力学领域也很重要。它有助于解释各种过程，例如两个不同温度的物体之间如何达到热平衡。当两个物体接触时，热量从较热的物体流向较冷的物体，直到两者达到相同的温度。这种能量的转移也可以通过热辐射（caloric radiation）发生，而不需要物体之间的直接接触。总之，热辐射（caloric radiation）是我们理解热传递及其在各种科学和实际背景中的影响的一个重要部分。从滋养地球生命的太阳的温暖，到节能建筑的设计，支配热辐射（caloric radiation）原理是自然和技术的基础。随着我们继续探索和创新，对这一概念的深入理解将使我们能够利用其潜力，实现可持续的未来。