dipolar

简明释义

[ˈdaɪˌpəʊlə(r)][ˈdaɪˌpoʊlər]

adj. 两极的

英英释义

Having two poles or charges, often used in the context of molecules with distinct positive and negative ends.

具有两个极或电荷,通常用于描述具有明显正负两端的分子。

单词用法

dipolar interaction

双极相互作用

dipolar solvent

双极溶剂

dipolar electric field

双极电场

dipolar magnetic moment

双极磁矩

dipolar coupling

双极耦合

dipolar approximation

双极近似

同义词

bipolar

双极的

Bipolar molecules have two poles with opposite charges.

双极分子具有两个带相反电荷的极。

dipole

偶极

In physics, a dipole refers to a pair of equal and oppositely charged or magnetized poles separated by a distance.

在物理学中,偶极指的是一对等量和相反电荷或磁化极,彼此之间有一定距离。

反义词

monopolar

单极的

Monopolar magnetic fields are often simpler to analyze than dipolar fields.

单极磁场通常比双极磁场更容易分析。

nonpolar

非极性的

Nonpolar molecules do not have distinct positive and negative ends.

非极性分子没有明显的正负两端。

例句

1.This paper also presented a semiempirical relationship of dipolar layer capacitance and coupling capacitance.

还给出了偶极层电容和电极问射频耦合电容半经验公式。

2.The research advances of the chiral ligands metal complexes catalysts used in asymmetric 1, 3-dipolar cycloaddition reactions were reviewed in this paper.

综述了手性配体金属络合物催化剂催化1,3 -偶极环加成反应的研究进展。

3.Intermolecularforces can be divided into three categories: dipolar forces, Londonforces, and hydrogen bonds.

分子间力可分为三类:偶极力,色散力及氢键。

4.It is dissolved in many kinds of dipolar aprotic organic solvents such as NMP, DMAc, DMSO, sulfolane.

易溶于氯仿、二甲基乙酰胺等多种极性非质子有机溶剂。

5.Aimed at the problems above, the three-compartment cation selective membrane electrolysis and dipolar membrane electrodialysis technique are used to deal with the dilute SO2 absorbed solution.

针对以上的问题,首次采用三室双阳膜电解和双极膜电渗析法处理了低浓so_2钠碱吸收液。

6.Aimed at the problems above, the three-compartment cation selective membrane electrolysis and dipolar membrane electrodialysis technique are used to deal with the dilute SO2 absorbed solution.

针对以上的问题,首次采用三室双阳膜电解和双极膜电渗析法处理了低浓so_2钠碱吸收液。

7.In this article, the symmetry of phonons and the coupling between phonons along different coordinates directions are discussed for molecular crystals in which dipolar coupling exists.

本文讨论了存在偶极矩作用下,分子晶体声子的对称性及声子各向偶极矩耦合情形。

8.While the hysteresis loop closes as the dipolar interaction is quite strong.

当偶极相互作用变得很强时,这些环将会消失。

9.Those behaviors can be explained with the competition of the different energies, including the random anisotropy, exchange and dipolar energies.

模拟结果能够利用不同能量(无规各向异性能,偶极相互作用能和交换相互作用能)之间的竞争作用来解释。

10.Water is a dipolar 双极的 molecule, which allows it to dissolve many substances.

水是一个dipolar 双极的分子,这使得它能够溶解许多物质。

11.The dipolar 双极的 nature of ammonia contributes to its high boiling point compared to similar molecules.

氨的dipolar 双极的特性使其沸点高于类似分子。

12.The dipolar 双极的 arrangement of electrons in a molecule affects its physical properties.

分子中电子的dipolar 双极的排列影响其物理性质。

13.Many solvents are dipolar 双极的, making them effective for dissolving ionic compounds.

许多溶剂是dipolar 双极的,使它们有效地溶解离子化合物。

14.In organic chemistry, dipolar 双极的 compounds can exhibit unique reactivity patterns.

在有机化学中,dipolar 双极的化合物可能表现出独特的反应模式。

作文

In the realm of chemistry and physics, the term dipoalr is frequently encountered, particularly when discussing molecular structures and interactions. A dipoalr molecule is one that has two distinct poles, one positive and the other negative, which results in a separation of electric charge. This characteristic is crucial for understanding how molecules interact with each other and with various solvents, especially in biological systems. For instance, water is a classic example of a dipoalr substance. Its dipoalr nature allows it to dissolve many ionic compounds and facilitates essential biochemical reactions in living organisms.The importance of dipoalr molecules extends beyond simple solubility. In biological membranes, dipoalr phospholipids form bilayers that serve as barriers to protect cellular integrity while allowing selective transport of substances. The hydrophilic (water-attracting) heads of these dipoalr molecules face outward towards the aqueous environment, while their hydrophobic (water-repelling) tails point inward, away from water. This arrangement is fundamental to cell function and structure, demonstrating how dipoalr properties govern the behavior of biological systems at the molecular level.Furthermore, dipoalr interactions are not limited to just water and lipids. Many proteins also exhibit dipoalr characteristics, influencing their folding and functionality. The specific arrangement of amino acids within a protein can create dipoalr regions that interact with other molecules, facilitating processes such as enzyme catalysis or signal transduction. Thus, understanding the dipoalr nature of these biomolecules is essential for biochemistry and molecular biology.In the context of materials science, dipoalr compounds also play a significant role. Many polymers exhibit dipoalr characteristics, affecting their physical properties such as melting points, solubility, and mechanical strength. Engineers and scientists often manipulate dipoalr interactions to design materials with specific properties for applications ranging from electronics to biomedical devices.Moreover, the concept of dipoalr is not confined to the microscopic world. In the field of environmental science, understanding dipoalr pollutants is critical for developing effective remediation strategies. Many contaminants in water bodies are dipoalr, and their behavior in aquatic environments can be predicted based on their dipoalr properties. This knowledge aids in assessing the impact of such pollutants on ecosystems and human health.In conclusion, the term dipoalr encompasses a wide range of phenomena across various scientific disciplines. From the fundamental principles of chemistry and biology to practical applications in materials science and environmental studies, the significance of dipoalr cannot be overstated. By understanding the implications of dipoalr characteristics, researchers can better grasp the complexities of molecular interactions and devise innovative solutions to pressing scientific challenges. The study of dipoalr substances continues to be a vibrant area of research, promising new insights and advancements in technology and medicine.

在化学和物理学领域,术语dipoalr经常出现,特别是在讨论分子结构和相互作用时。dipoalr分子是指具有两个不同极性的分子,一个为正极,另一个为负极,这导致电荷的分离。这一特性对于理解分子之间以及与各种溶剂之间的相互作用至关重要,尤其是在生物系统中。例如,水就是一个经典的dipoalr物质。它的dipoalr特性使其能够溶解许多离子化合物,并促进生物体内的重要生化反应。dipoalr分子的意义不仅限于简单的溶解性。在生物膜中,dipoalr磷脂形成双层,作为保护细胞完整性的屏障,同时允许选择性运输物质。这些dipoalr分子的亲水(吸水)头部朝外面面对水环境,而它们的疏水(排水)尾部则朝内,远离水。这种排列对细胞的功能和结构至关重要,展示了dipoalr特性如何支配生物系统在分子水平上的行为。此外,dipoalr相互作用不仅限于水和脂质。许多蛋白质也表现出dipoalr特性,影响其折叠和功能。蛋白质内氨基酸的特定排列可以创建dipoalr区域,与其他分子相互作用,促进酶催化或信号转导等过程。因此,理解这些生物分子的dipoalr特性对于生物化学和分子生物学至关重要。在材料科学的背景下,dipoalr化合物也发挥着重要作用。许多聚合物表现出dipoalr特性,影响其物理性质,如熔点、溶解度和机械强度。工程师和科学家通常操纵dipoalr相互作用,以设计具有特定性能的材料,应用于电子产品和生物医学设备等领域。此外,dipoalr的概念并不局限于微观世界。在环境科学领域,理解dipoalr污染物对于开发有效的修复策略至关重要。许多水体中的污染物都是dipoalr的,其在水生环境中的行为可以根据其dipoalr特性进行预测。这一知识有助于评估这些污染物对生态系统和人类健康的影响。总之,术语dipoalr涵盖了各个科学学科中的广泛现象。从化学和生物学的基本原理到材料科学和环境研究中的实际应用,dipoalr的重要性不可低估。通过理解dipoalr特性的意义,研究人员可以更好地掌握分子相互作用的复杂性,并提出创新的解决方案来应对紧迫的科学挑战。dipoalr物质的研究仍然是一个充满活力的研究领域,承诺带来新的见解和技术与医学的进步。