carbonic
简明释义
adj. 碳的;由碳得到的
英英释义
与二氧化碳相关或源自二氧化碳的。 | |
Pertaining to carbonic acid, which is formed when carbon dioxide dissolves in water. | 与碳酸有关,碳酸是在二氧化碳溶解于水时形成的。 |
单词用法
碳酸 | |
n. 碳酸酐酶 |
同义词
| 碳酸的 | 碳酸水 |
反义词
例句
1.It consists of special resin, foaming agent fire-proofing agent, carbonic agent, pigment and filler.
由特殊树脂,加上发泡剂、防火剂、成碳剂以及颜填料等组成。
2.Once in the water, it reacts to form carbonic acid.
二氧化碳一旦进入水中,就会发生反应形成碳酸。
3.Corrosion of carbon dioxide means the corrosion made by carbonic acid generated after carbon dioxide (CO_2) dissolved in water.
二氧化碳腐蚀是油气中的二氧化碳(CO_2)溶解于水后生成碳酸后引起的腐蚀。
4.The species and preparation methods of carbonic system pantograph strip materials are explained in detail.
重点阐述了炭系受电弓滑板材料的种类和制备方法。
5.Carbonic acid (essentially soda pop) dissolved in silicate rocks is transported to our oceans by rain.
碳酸(本质上就是汽水)溶解在硅酸盐岩中通过雨水的方式传送到大海中。
6.About a third of carbon emissions is soaked up by the world's oceans, where it combines with seawater to form carbonic acid.
全球各地所有排放出的二氧化碳,其中有大约三分之一都被海洋吸收了;二氧化碳和海水综合以后,形成碳酸。
7.The proteins are enzymes called carbonic anhydrases.
这些蛋白质叫做碳酸酐酶。
8.In geology, carbonic 碳酸的 acid plays a significant role in the weathering of rocks.
在地质学中,carbonic 碳酸的 酸在岩石风化中起着重要作用。
9.The carbonic 碳酸的 gas emitted from volcanic eruptions can affect the surrounding environment.
火山喷发释放的carbonic 碳酸的 气体可能会影响周围环境。
10.The beverage industry often uses carbonic 碳酸的 acid to create fizzy drinks.
饮料行业常常使用carbonic 碳酸的 酸来制作气泡饮料。
11.Carbonated water contains dissolved carbonic 碳酸的 acid, giving it a distinctive taste.
碳酸水含有溶解的carbonic 碳酸的 酸,使其具有独特的味道。
12.Plants use carbonic 碳酸的 acid to help in the process of photosynthesis.
植物利用carbonic 碳酸的 酸来帮助进行光合作用。
作文
The term carbonic refers to anything that is related to carbon dioxide, a colorless gas that is naturally present in Earth's atmosphere. It plays a crucial role in various biological and geological processes. Understanding the significance of carbonic compounds is essential for appreciating how they influence our environment and health. For instance, carbonic acid, formed when carbon dioxide dissolves in water, is a weak acid that occurs naturally in rainwater, contributing to the formation of caves and other geological features. This process illustrates the importance of carbonic compounds in shaping our planet's landscape.Moreover, the role of carbonic acid extends beyond geology; it is also vital in maintaining the pH balance in our blood. When we breathe out, we release carbon dioxide, which then reacts with water in our bloodstream to form carbonic acid. This acid dissociates into bicarbonate and hydrogen ions, helping to regulate our body's acidity levels. Thus, the presence of carbonic acid is crucial for our survival, as it ensures that our physiological processes function optimally.In recent years, the increasing levels of carbon dioxide in the atmosphere have raised concerns about climate change. The burning of fossil fuels releases large amounts of CO2, leading to higher concentrations of carbonic gas in the air. This rise in carbonic acid in the oceans results in ocean acidification, which poses a threat to marine life, particularly organisms that rely on calcium carbonate for their shells and skeletons. As the oceans absorb more carbonic acid, the delicate balance of marine ecosystems is disrupted, highlighting the urgent need for sustainable practices to reduce carbon emissions.Furthermore, understanding carbonic compounds is essential for innovation in various fields, including environmental science and renewable energy. Researchers are exploring ways to capture and utilize carbonic gas, turning it into useful products or storing it underground to mitigate its impact on climate change. Technologies such as direct air capture and carbon capture and storage (CCS) are at the forefront of these efforts, aiming to reduce the amount of carbonic gas released into the atmosphere.In conclusion, the word carbonic encompasses a wide range of implications, from geological formations to biological processes and environmental concerns. Its relevance in today's world cannot be overstated, as we face challenges related to climate change and the sustainability of our planet. By gaining a deeper understanding of carbonic compounds, we can better appreciate their role in our lives and work towards solutions that promote a healthier environment for future generations.
“carbonic”这个词指的是与二氧化碳相关的任何事物,二氧化碳是一种无色气体,自然存在于地球的大气中。它在各种生物和地质过程中发挥着至关重要的作用。理解carbonic化合物的重要性对于欣赏它们如何影响我们的环境和健康至关重要。例如,当二氧化碳溶解在水中时形成的carbonic酸是一种弱酸,天然存在于雨水中,有助于洞穴等地质特征的形成。这一过程说明了carbonic化合物在塑造我们星球的景观中的重要性。此外,carbonic酸的作用不仅限于地质学;它在维持我们血液的酸碱平衡方面也至关重要。当我们呼气时,释放出二氧化碳,这些二氧化碳与我们血液中的水反应生成carbonic酸。这种酸解离成碳酸氢根和氢离子,有助于调节我们体内的酸度水平。因此,carbonic酸的存在对我们的生存至关重要,因为它确保我们的生理过程正常运作。近年来,大气中二氧化碳浓度的增加引发了人们对气候变化的担忧。化石燃料的燃烧释放大量CO2,导致空气中carbonic气体浓度升高。海洋中carbonic酸的增加导致海洋酸化,对海洋生物构成威胁,特别是那些依赖碳酸钙构建外壳和骨架的生物。随着海洋吸收更多的carbonic酸,海洋生态系统的微妙平衡被破坏,突显了减少碳排放的可持续实践的迫切需要。此外,理解carbonic化合物对于环境科学和可再生能源等各个领域的创新至关重要。研究人员正在探索捕获和利用carbonic气体的方法,将其转化为有用的产品或将其储存到地下,以减轻其对气候变化的影响。直接空气捕集和碳捕集与储存(CCS)等技术处于这些努力的前沿,旨在减少释放到大气中的carbonic气体的数量。总之,carbonic这个词涵盖了广泛的含义,从地质形成到生物过程以及环境问题。在当今世界,它的相关性不容小觑,因为我们面临与气候变化和地球可持续性相关的挑战。通过深入理解carbonic化合物,我们可以更好地欣赏它们在我们生活中的作用,并努力寻找促进未来世代健康环境的解决方案。
