endoergic

简明释义

英[ˌendəʊˈɜːdʒɪk]美[ˌendoʊˈɜːrdʒɪk]

[热] 吸热的

吸能的

英英释义

单词用法

同义词

反义词

例句

1.Characterized by or causing the absorption of heat; endoergic.

吸热的具有吸热特性的或由吸热产生的；

2.Characterized by or causing the absorption of heat; endoergic.

吸热的具有吸热特性的或由吸热产生的；

3.The process of photosynthesis is an example of an endoergic 吸能的 reaction, where plants absorb sunlight to convert carbon dioxide and water into glucose.

光合作用是一个吸能的反应的例子，植物吸收阳光将二氧化碳和水转化为葡萄糖。

4.In chemistry, certain endoergic 吸能的 reactions require a continuous input of energy to proceed.

在化学中，某些吸能的反应需要持续输入能量才能进行。

5.The melting of ice is an endoergic 吸能的 process because it absorbs heat from the surroundings.

冰的融化是一个吸能的过程，因为它从周围环境中吸收热量。

6.When water evaporates, it undergoes an endoergic 吸能的 transformation that requires energy from heat.

当水蒸发时，它经历一个吸能的转变，需要来自热量的能量。

7.An endoergic 吸能的 reaction can be driven by coupling it with an exoergic reaction.

一个吸能的反应可以通过与一个放热反应耦合来驱动。

作文

In the realm of chemistry and physics, one often encounters various terms that describe the nature of energy changes during reactions and processes. One such term is endoergic, which refers to a type of reaction or process that absorbs energy from its surroundings. Understanding endoergic processes is essential for grasping how certain chemical reactions occur and are utilized in practical applications. To elaborate, an endoergic reaction requires an input of energy, typically in the form of heat or light, to proceed. This contrasts with exoergic reactions, which release energy. A classic example of an endoergic process is photosynthesis, where plants absorb sunlight to convert carbon dioxide and water into glucose and oxygen. This process not only sustains plant life but also forms the basis of the food chain, highlighting the significance of endoergic reactions in ecological systems. Moreover, understanding endoergic reactions can lead to advancements in various fields, including renewable energy. For instance, researchers are exploring ways to harness solar energy through endoergic processes to produce clean fuels. By optimizing these reactions, we can develop sustainable energy sources that mitigate the impact of fossil fuels on the environment. In addition to their ecological and energy implications, endoergic reactions play a crucial role in biochemical processes within living organisms. Metabolism, the sum of all chemical reactions in a living organism, includes numerous endoergic reactions that are vital for growth and maintenance. For example, the synthesis of complex molecules like proteins and nucleic acids often involves endoergic reactions that require energy input from ATP (adenosine triphosphate). As we delve deeper into the study of chemistry and biology, it becomes clear that endoergic processes are not merely academic concepts; they have real-world applications and consequences. From the way we produce food to how we generate energy, understanding the principles behind endoergic reactions can inform our approaches to sustainability and innovation. In conclusion, the term endoergic encapsulates a fundamental concept in science that describes energy-absorbing processes. By studying these reactions, we can unlock new technologies and methods that align with the principles of sustainability. Whether in nature or in engineered systems, endoergic processes are integral to the functioning of both biological and chemical systems, making them a key area of focus for future research and development.

endoergic是一个化学和物理领域的术语，指的是一种从周围环境中吸收能量的反应或过程。理解endoergic过程对于掌握某些化学反应的发生及其在实际应用中的利用至关重要。endoergic反应需要输入能量，通常以热量或光的形式，以便进行。这与释放能量的放热反应形成对比。光合作用是一个经典的endoergic过程，植物通过吸收阳光将二氧化碳和水转化为葡萄糖和氧气。这一过程不仅维持了植物生命，而且形成了食物链的基础，突显了endoergic反应在生态系统中的重要性。此外，理解endoergic反应可以推动可再生能源等多个领域的进步。例如，研究人员正在探索如何通过endoergic过程利用太阳能生产清洁燃料。通过优化这些反应，我们可以开发出可持续的能源来源，从而减轻化石燃料对环境的影响。除了生态和能源的影响外，endoergic反应在生物体内的生化过程中也发挥着重要作用。新陈代谢，即生物体内所有化学反应的总和，包括许多对生长和维持至关重要的endoergic反应。例如，复杂分子如蛋白质和核酸的合成通常涉及需要来自ATP（腺苷三磷酸）能量输入的endoergic反应。随着我们深入研究化学和生物学，endoergic过程不仅仅是学术概念；它们具有现实世界的应用和后果。从我们生产食物的方式到我们产生能源的方式，理解endoergic反应背后的原理可以为我们的可持续发展和创新方法提供指导。总之，endoergic这个术语概括了科学中描述吸能过程的基本概念。通过研究这些反应，我们可以解锁与可持续原则相一致的新技术和方法。无论是在自然界还是在工程系统中，endoergic过程都是生物和化学系统功能的关键组成部分，使其成为未来研究和发展的重点领域。