conjugation effect

简明释义

共轭效应

英英释义

例句

1.In linguistics, understanding the conjugation effect can help in grasping verb usage in different tenses.

在语言学中，理解结合效应有助于掌握不同时态中动词的使用。

2.The conjugation effect plays a crucial role in how we form and understand sentences in a foreign language.

结合效应在我们如何构造和理解外语句子中起着至关重要的作用。

3.Teachers often explain the conjugation effect to students to enhance their language learning experience.

老师们经常向学生解释结合效应以增强他们的语言学习体验。

4.Researchers are investigating the conjugation effect in various languages to find common patterns.

研究人员正在调查不同语言中的结合效应以寻找共同模式。

5.The study revealed a significant conjugation effect, which refers to the influence of conjugated forms on perception.

这项研究揭示了显著的结合效应，即结合形式对感知的影响。

作文

The concept of conjugation effect is often discussed in the context of chemistry and biology, but it also has significant implications in various fields such as linguistics and psychology. In basic terms, the conjugation effect refers to the influence that the structure of a molecule has on its reactivity and properties due to the presence of conjugated systems. This phenomenon can be seen in organic compounds where alternating single and double bonds create a system of delocalized electrons, enhancing stability and reactivity. In chemistry, the conjugation effect plays a crucial role in determining the color of compounds. For instance, many dyes and pigments exhibit vibrant colors because they possess conjugated systems that allow them to absorb specific wavelengths of light. The longer the chain of conjugated double bonds, the more visible the color becomes. This principle is not only relevant for chemists but also for artists and designers who utilize color theory in their work. From a biological perspective, the conjugation effect is essential in understanding how certain molecules interact within living organisms. For example, in the case of photosynthesis, chlorophyll contains a conjugated system that allows it to absorb sunlight effectively. This absorption is vital for converting solar energy into chemical energy, showcasing the importance of the conjugation effect in sustaining life on Earth. Moreover, the conjugation effect extends beyond the natural sciences and into the realm of linguistics. In language, conjugation refers to the way verbs change form based on tense, mood, or subject. The conjugation effect in linguistics highlights how these changes can affect the meaning and interpretation of sentences. For example, the verb ‘to run’ can be conjugated into ‘running,’ ‘ran,’ or ‘runs,’ each indicating a different time frame and aspect of the action. Understanding these conjugations is crucial for effective communication and comprehension in any language. Psychologically, the conjugation effect can influence how individuals perceive and respond to information. Research has shown that people are often swayed by the way information is presented, including the use of conjugated forms in language. For instance, using active voice versus passive voice can significantly alter the perception of responsibility and agency in a statement. This aspect of the conjugation effect reveals the power of language in shaping thoughts and behaviors. In conclusion, the conjugation effect is a multifaceted concept that transcends disciplines. Whether in chemistry, biology, linguistics, or psychology, understanding the conjugation effect allows us to appreciate the interconnectedness of various fields of study. It emphasizes the importance of structure—be it molecular, grammatical, or cognitive—in influencing behavior and outcomes. As we continue to explore the implications of the conjugation effect, we can gain deeper insights into both the natural world and human interactions, ultimately enriching our knowledge and experiences.

“结合效应”这一概念通常在化学和生物学的背景下讨论，但它在语言学和心理学等多个领域也具有重要意义。简单来说，结合效应指的是分子结构对其反应性和特性的影响，这种影响源于存在结合体系的分子。在有机化合物中，交替的单键和双键形成了一个去局域化电子的体系，从而增强了稳定性和反应性。在化学中，结合效应在决定化合物颜色方面起着关键作用。例如，许多染料和颜料由于拥有结合体系而展现出鲜艳的颜色，因为它们能够吸收特定波长的光。结合双键的链条越长，颜色就越明显。这一原理不仅与化学家相关，也与艺术家和设计师在工作中利用色彩理论密切相关。从生物学的角度来看，结合效应在理解某些分子如何在生物体内相互作用时至关重要。例如，在光合作用中，叶绿素含有一个结合体系，使其能够有效地吸收阳光。这种吸收对于将太阳能转化为化学能至关重要，展示了结合效应在维持地球生命中的重要性。此外，结合效应不仅限于自然科学，还延伸到语言学的领域。在语言中，动词的变位是指动词根据时态、语气或主语的不同而改变形式的方式。语言学中的结合效应强调这些变化如何影响句子的意义和解释。例如，动词“跑”可以变为“跑步”、“跑过”或“跑”，每种形式都表示不同时态和动作的方面。理解这些变位对任何语言的有效沟通和理解至关重要。在心理学上，结合效应可能会影响个人对信息的感知和反应。研究表明，人们常常受到信息呈现方式的影响，包括语言中变位形式的使用。例如，使用主动语态与被动语态可能会显著改变对陈述中责任和行为主体的感知。这一方面的结合效应揭示了语言在塑造思想和行为中的力量。总之，结合效应是一个多面的概念，超越了学科界限。无论是在化学、生物学、语言学还是心理学中，理解结合效应使我们能够欣赏各个研究领域之间的相互联系。它强调了结构的重要性，无论是分子结构、语法结构还是认知结构，都会影响行为和结果。随着我们继续探索结合效应的影响，我们可以更深入地了解自然世界和人际互动，最终丰富我们的知识和经验。