interconversion
简明释义
英[ˌintə(:)kən'və:ʃən]美[ˌɪntərkən'vɜːrʒən]
n. 互变现象;互换现象
英英释义
单词用法
能量相互转化 | |
单位的相互转化 | |
相互转化过程 | |
相互转化反应 |
同义词
反义词
分歧 | 意见的分歧导致了一场激烈的辩论。 | ||
断开 | 网络的断开导致了显著的延迟。 |
例句
1.The visual program making by VFP DBMS is mainly presented, the interconversion for different form of data is realized, and the vent code for making program are provided.
探讨了利用VFP数据库管理系统进行可视化编程,实现不同数据格式间的相互转换,并提供了编程的事件代码。
2.By analyzing the theory of geographic coordinates and rectangular coordinates interconversion, algorithmic researches and completion of coordinate conversion programming has been discussed.
通过对地理坐标与地面直角坐标相互转换原理的分析,论述了坐标转换和算法研究及实现方法。
3.The present invention relates to a voice or digital interconversion communication device and the method based on double-circuit.
本发明涉及一种基于双线对语音或数字相互转换的通迅装置及方法。
4.However, if optically active reagents are being used it would be important to avoid the pH range above 6, as at the higher pH range interconversion of the free compound of Formula I occurs.
使用光学活性试剂对避免PH值超过6很重要,因为ph过高时分子式一的化合物可以自由转变。
5.The interconversion of glucose values for venous and capillary blood is further complicated by the arteriovenous difference.
静脉血糖值与毛细管血糖值之间的相互转换远比动脉静脉差别复杂。
6.Adenylate kinase (AK) is a phosphotransferase enzyme that catalyzes the interconversion of adenine nucleotides, and plays an important role in cellular energy homeostasis.
腺苷酸激酶(AK)是催化各种腺嘌呤核苷酸相互转化的一种磷酸转移酶,其在维持细胞能量平衡中起着重要的作用。
7.The present invention discloses a novel polypeptide, human guanine interconversion factor 12, polynucleotides encoding this polypeptide and DNA recombination process to produce the polypeptide.
本发明公开了一种新的多肽——人鸟嘌呤互转因子12,编码此多肽的多核苷酸和经d NA重组技术产生这种多肽的方法。
8.We assume that no interconversion takes place.
我们假设没有互变发生。
9.Aromatic cytokinins metabolism is classified under four broad headings: interconversion, hydroxylation, conjugation and oxidation.
它的代谢具有相互转换、羟基化作用、结合作用和氧化降解四个特征。
10.The process of energy interconversion 能量相互转化 is crucial in physics.
能量的相互转化在物理学中至关重要。
11.Solar panels facilitate the interconversion 相互转化 of solar energy into electrical energy.
太阳能电池板促进太阳能与电能之间的相互转化。
12.The interconversion 相互转化 between different forms of matter is a fundamental concept in chemistry.
物质不同形态之间的相互转化是化学中的基本概念。
13.The interconversion 相互转化 of units in mathematics can help solve complex problems.
数学中单位的相互转化可以帮助解决复杂问题。
14.In biochemistry, the interconversion 相互转化 of glucose and fructose can affect metabolic pathways.
在生物化学中,葡萄糖和果糖的相互转化会影响代谢途径。
作文
In the realm of science and technology, the concept of interconversion plays a pivotal role in various fields, particularly in chemistry and physics. Interconversion refers to the process of converting one form of energy or matter into another, allowing for a dynamic interaction between different states of substances or energy forms. This phenomenon is not only fascinating but also essential for understanding how systems operate in nature. For instance, in thermodynamics, the interconversion of heat and work illustrates the fundamental principles that govern energy transfer. In this context, energy can be transformed from thermal energy into mechanical work, showcasing the versatility of energy forms. Moreover, the interconversion of chemical compounds is a cornerstone of organic chemistry. Reactions often involve the transformation of reactants into products, where the structure and composition of molecules change through various mechanisms. This process is crucial for synthesizing new materials and understanding biological processes. For example, photosynthesis is a natural interconversion process where light energy is converted into chemical energy by plants, highlighting the importance of this concept in ecological systems.In the field of information technology, interconversion manifests in data formats and encoding systems. The ability to convert data from one format to another ensures compatibility across different platforms and devices. This interconversion is vital in software development, where programmers frequently need to translate data structures to optimize performance and usability. The seamless transition between formats enhances user experiences and facilitates communication between various systems.Furthermore, the interconversion of units is a practical application encountered in everyday life. Whether converting measurements from metric to imperial or translating currencies, understanding interconversion is essential for effective communication and commerce. This skill allows individuals to navigate different systems of measurement and currency, thereby fostering global interactions.The significance of interconversion extends beyond science and technology; it also finds relevance in social contexts. Cultural interconversion, for instance, occurs when individuals or groups exchange ideas, traditions, and practices. This exchange enriches societies and promotes understanding among diverse populations. As globalization continues to shape our world, the interconversion of cultural elements becomes increasingly important, leading to innovation and collaboration across borders.In conclusion, the concept of interconversion is multifaceted and essential across various domains. From the transformation of energy and matter in scientific contexts to the conversion of data formats in technology and the exchange of cultural practices in society, interconversion serves as a fundamental principle that underpins many processes. Understanding this concept not only enhances our grasp of complex systems but also equips us with the skills necessary to navigate an interconnected world. As we continue to explore the intricacies of interconversion, we unlock new possibilities and foster innovation in numerous fields, ultimately contributing to a greater understanding of the universe around us.
在科学和技术领域,interconversion的概念在各个领域中发挥着关键作用,特别是在化学和物理学中。Interconversion指的是将一种能量或物质形式转换为另一种形式的过程,从而允许不同状态的物质或能量形式之间进行动态互动。这一现象不仅令人着迷,而且对于理解自然界中系统如何运作至关重要。例如,在热力学中,热与功的interconversion展示了支配能量转移的基本原理。在这种情况下,能量可以从热能转化为机械功,展示了能量形式的多样性。此外,化合物的interconversion是有机化学的基石。反应通常涉及反应物转变为产品,其中分子的结构和组成通过各种机制发生变化。这个过程对于合成新材料和理解生物过程至关重要。例如,光合作用是一个自然的interconversion过程,植物通过这一过程将光能转化为化学能,突显了这一概念在生态系统中的重要性。在信息技术领域,interconversion体现在数据格式和编码系统中。将数据从一种格式转换为另一种格式的能力确保了不同平台和设备之间的兼容性。这种interconversion在软件开发中至关重要,程序员经常需要翻译数据结构以优化性能和可用性。格式之间的无缝过渡增强了用户体验,并促进了各种系统之间的通信。此外,单位的interconversion是日常生活中遇到的一种实用应用。无论是将测量值从公制转换为英制,还是翻译货币,理解interconversion对于有效的沟通和商业活动都是必不可少的。这项技能使个人能够在不同的测量和货币系统之间导航,从而促进全球互动。Interconversion的重要性不仅限于科学和技术;它在社会背景中也具有相关性。例如,文化的interconversion发生在个人或群体之间交换思想、传统和实践时。这种交流丰富了社会,促进了不同人群之间的理解。随着全球化继续塑造我们的世界,文化元素的interconversion变得越来越重要,导致跨国界的创新与合作。总之,interconversion的概念是多方面的,并在各个领域中至关重要。从科学背景下能量和物质的转化,到技术中数据格式的转换,再到社会中文化实践的交流,interconversion作为一个基本原则支撑着许多过程。理解这一概念不仅增强了我们对复杂系统的掌握,还使我们具备了在互联世界中导航所需的技能。随着我们继续探索interconversion的复杂性,我们解锁了新的可能性,并在众多领域促进了创新,最终有助于更好地理解我们周围的宇宙。