anisosthenic

"anisosthenic" 这个词的音标是 [ˌæniːsəʊθenɪk]，它是一个形容词，意思是"有异形的，不规则的"。

基本翻译：这个词语通常用于描述物体的形状或结构不规则，或者描述人的性格或行为方式与众不同。

速记技巧：这个单词是由两个部分组成的， "aniso-" 是前缀，表示 "不同，不规则"，"sthenic" 是后缀，表示 "有某种特征的"。因此，我们可以将这个单词分解记忆，记住它表示 "有异形的，不规则的"。

以上是对 "anisosthenic" 这个词的解析，希望对你有所帮助！

Anisosthenic的英文词源是希腊语单词“ανιστόσχημος”，意为“倾斜的，不平的”。

变化形式：复数形式为“anisostheneic”，形容词为“anisosthenic”。

相关单词：

“slanting”意为“倾斜的，斜的”，其词源也与Anisosthenic有关，表示物体向一个方向倾斜。

“uneven”意为“不平的，不均匀的”，其词源也与Anisosthenic有关，表示物体表面不平整或分布不均匀。

“oblique”意为“斜的，倾斜的”，其词源与Anisosthenic有关，表示物体偏离了垂直线或水平线。

“humpback”意为“驼峰状的”，其词源与Anisosthenic有关，表示物体形状呈驼峰状。

“irregular”意为“不规则的，不规律的”，其词源也与Anisosthenic有关，表示物体形状不规则或分布不规律。

“slantwise”意为“斜着，倾斜地”，其词源也与Anisosthenic有关，表示物体向一个方向倾斜。

“aspheric”意为“非球形的，非圆形的”，其词源也与Anisosthenic有关，表示物体形状不是球形或圆形的。

“lopsided”意为“不平衡的，偏斜的”，其词源也与Anisosthenic有关，表示物体不平衡或偏离中心。

“hilly”意为“多山的，丘陵的”，其词源也与Anisosthenic有关，表示地形起伏不平，多山丘陵。

以上单词都与Anisosthenic相关，描述了物体倾斜、不平、不规则等特征，同时也描述了地形、形状等方面的特征。

常用短语：

1. anisosthenic structure

2. anisosthenic mineral

3. anisosthenic effect

4. anisosthenic crystal

5. anisosthenic behavior

6. anisosthenic ratio

7. anisosthenic crystallization

例句：

1. The anisosthenic mineral exhibits a unique crystal structure that is difficult to replicate.

2. The anisosthenic effect is particularly pronounced in certain types of crystals.

3. The anisosthenic crystallization process results in a highly ordered array of particles.

4. The anisosthenic ratio indicates the degree of orientation in a crystal.

5. The anisosthenic behavior of a material is determined by its physical properties under different conditions.

6. The anisosthenic structure of a material provides it with unique mechanical properties.

7. The anisosthenic effect can be used to improve the performance of certain materials.

英文小作文：

The Anisosthenic Effect in Materials Science

Materials science has always been interested in the unique properties of materials, and one such property is the anisosthenic effect. The anisosthenic effect refers to the tendency of materials to behave differently depending on their orientation and environment. This effect can be used to improve the performance of certain materials and can also provide designers with unique ways to manipulate materials for specific applications.

For example, consider a material that exhibits anisosthenic behavior in its mechanical properties. When this material is subjected to different loading conditions, it may behave differently in different directions. This property can be used to design stronger and more resilient structures, as well as to improve the efficiency of mechanical systems. Additionally, the anisosthenic effect can be used to create materials with unique optical properties that can be used in various applications, such as optical devices and sensors.

The anisosthenic effect is not only limited to mechanical and optical properties, however. It can also be used to tailor the chemical reactivity of materials and to create materials with enhanced electrical properties. Understanding the anisosthenic effect and how it can be used in materials science is crucial for developing new and innovative materials for a wide range of applications.