boundary member

boundary member的音标为["baɪd(ə)rɪˈmɪndəm]，基本翻译为“边界成员”。速记技巧可以考虑将单词拆分并记忆，如将boundary拆分为“边-界-缘”，member拆分为“me-ber”，这样有助于记忆单词的各个部分。同时，可以结合上下文进行记忆，以便更好地理解单词的含义和使用场景。

Boundary member这个词的英文词源可以追溯到拉丁语boundary，意为“边界”。这个词在英语中通常指边界上的一个点或线段。

变化形式：

1. 单数形式：boundary member

2. 复数形式：boundaries members

相关单词：

1. boundary line：边界线，通常指边界上的线段或界线。

2. border：边界，通常指地理上的边界或边境。

3. margin：边缘，通常指物体或区域的边缘。

4. fringe：边缘，通常指某个团体或组织的边缘成员。

5. periphery：外围，通常指某个组织或群体的外围成员。

6. outskirts：外围地区，通常指某个城市或地区的边缘地带。

7. circumference：周长，通常指圆或曲线的周长。

8. extremity：极端，通常指边界或边缘的极端情况。

9. verge：边缘，通常指接近或濒临边缘的状态。

10. edge：边缘，通常指刀、剑等武器的边缘，也可以指事物的边缘部分。

Boundary Member

常用短语：

1. boundary condition

2. boundary layer

3. boundary value problem

4. inner boundary

5. outer boundary

6. boundary integral equation

7. boundary layer separation

例句：

1. The boundary condition of the system must be carefully considered.

2. The boundary layer of the airflow over the surface plays an important role in aerodynamics.

3. We need to set an outer boundary to limit the simulation region.

4. The solution of the boundary value problem depends on the choice of the boundary conditions.

5. The numerical method used to solve the boundary integral equation needs to be carefully chosen.

6. The separation of the boundary layer and the main flow is a common phenomenon in fluid dynamics.

英文小作文：

Boundary Members and Their Role in Science and Engineering

Boundary members play a crucial role in many fields of science and engineering, from fluid dynamics to electrical engineering, from biology to materials science. They represent the interfaces between different systems or parts of a system, and provide a way to study and understand how these systems interact and influence each other.

In fluid dynamics, boundary layers are essential components of airflow over surfaces, and understanding their behavior is crucial for developing efficient aerodynamic designs. In electrical engineering, boundary conditions determine how electricity flows between different parts of a system, and must be carefully set to ensure proper operation. In biology, boundaries between tissues and organs play an important role in how cells and tissues interact and function.

Boundary members also provide a way to study and understand complex systems that cannot be easily studied using other methods. For example, in materials science, interfaces between different materials play a crucial role in determining their properties and how they interact with each other. By studying these boundaries, scientists can gain a deeper understanding of materials and develop new materials with improved properties.

Overall, boundary members are essential components of many scientific and engineering systems, and understanding their behavior and interactions is crucial for developing effective and efficient designs and solutions.