admass

admass音标为/ə"dmæs/，基本翻译为“广告商”，速记技巧可以考虑使用词根记忆法，即“ad”（广告）+“mass”（大众）→广告商。

Admass这个词源自希腊语，意为“连接”或“关联”。它的变化形式包括复数形式admasses，过去式admassed和过去分词Admassed。

相关单词：

"association"：这个词在英语中意为“联系”、“关联”，与admass有相似的含义。

"connection"：这个词表示“连接”、“关联”，是另一个与admass相关的词汇。

"nexus"：这个词源自拉丁语，意为“连接”、“纽带”，也与admass有相似的含义。

"interconnect"：这个词表示“相互连接”，是另一个与admass相关的词汇，常用于描述网络或系统中的连接方式。

"conjunction"：这个词意为“结合”、“联合”，也与admass有相似的含义，常用于描述两个或多个事物之间的关联。

"correlation"：这个词表示“相关”、“关联”，用于描述两个或多个数据点之间的线性或非线性关系。

"link"：这个词意为“链接”、“关联”，常用于描述网页、文件或其他资源之间的连接关系。

"related"：这个词意为“相关的”，常用于描述两个或多个事物之间的联系或相似性。

"juxtaposition"：这个词表示“并置”、“并列”，常用于描述两个或多个事物之间的并列关系。

"synergy"：这个词意为“协同作用”、“协同效应”，用于描述两个或多个事物之间的相互作用和协同效果。

以上这些单词都与admass有相似的含义，并且可以用来描述各种类型的关联和连接关系。这些单词在英语中有着广泛的应用，可以帮助我们更好地理解和描述各种复杂的现象和关系。

常用短语：

1. add mass to (增加质量)

例句：The scientist added mass to the particle by using a heavier element.

2. mass balance (质量平衡)

例句：The company"s mass balance showed a significant increase in production.

3. mass fraction (质量分数)

例句：The chemical compound has a mass fraction of 95%.

4. mass density (质量密度)

例句：The metal has a high mass density, making it suitable for use in construction.

5. mass spectrometry (质谱分析)

例句：The scientist used mass spectrometry to identify the chemical composition of the sample.

6. mass-to-charge ratio (质量比电荷)

例句：The ion"s mass-to-charge ratio indicates its chemical identity.

7. total mass (总质量)

例句：The spacecraft"s total mass includes all of its equipment and supplies.

英文小作文：

When it comes to measuring the properties of matter, mass is one of the most fundamental quantities. From atoms to stars, everything has a certain amount of mass, which is crucial for understanding its behavior and interactions. However, measuring mass can be a challenging task, especially when dealing with complex systems like molecules or celestial bodies. In these cases, mass spectrometry becomes an essential tool for accurately determining the composition and structure of these objects. Through mass spectrometry, we can identify individual components in a sample and measure their relative amounts, providing valuable information about their properties and behavior. This technique has revolutionized many fields of science, from chemistry to biology, and continues to be an indispensable tool for research and development in the physical sciences.