transverse recording

简明释义

横向记录

英英释义

例句

1.The engineers implemented transverse recording techniques to monitor vibrations in the bridge.

工程师采用横向记录技术监测桥梁的振动。

2.Using transverse recording, the team was able to identify defects in the pipeline.

通过使用横向记录，团队能够识别管道中的缺陷。

3.The researcher utilized transverse recording to analyze the stress distribution in the material.

研究人员利用横向记录分析材料中的应力分布。

4.The geologist performed transverse recording of seismic data to better understand the fault lines.

地质学家进行了横向记录以更好地理解断层线的地震数据。

5.In medical imaging, transverse recording helps in obtaining cross-sectional views of organs.

在医学成像中，横向记录有助于获得器官的横截面视图。

作文

In the field of scientific research and engineering, various methods are employed to gather data and analyze phenomena. One such method that has gained prominence is transverse recording, which refers to the technique of capturing data across a specific plane or direction, typically perpendicular to the main axis of interest. This approach allows researchers to obtain a comprehensive view of the subject being studied, facilitating better understanding and interpretation of complex systems. Transverse recording plays a crucial role in disciplines such as biology, physics, and material science, where understanding the interactions within a three-dimensional space is essential.For instance, in biological studies, transverse recording can be used to observe the arrangement of cells in tissues. By slicing through a tissue sample and recording the cellular structures from a transverse viewpoint, scientists can gain insights into how these cells interact with one another and their environment. This method provides a clearer picture of cellular organization, which is vital for understanding diseases and developing targeted treatments.In the realm of physics, transverse recording is often utilized in experiments involving waves, such as sound or light. When researchers want to study the behavior of waves as they propagate through different mediums, they may employ this technique to capture waveforms at various points across a transverse plane. This data can reveal important information about wave interference, diffraction, and other phenomena that occur when waves interact with obstacles or each other.Moreover, in material science, transverse recording is essential for analyzing the properties of materials under stress. By applying forces to a material and recording the resulting deformation across a transverse section, scientists can determine the material's strength, elasticity, and failure points. This information is critical for designing safer and more efficient structures, as it helps engineers understand how materials will behave under real-world conditions.The versatility of transverse recording extends beyond these fields, as it can also be applied in areas like geophysics, where it aids in the study of subsurface structures. Geologists may use this technique to analyze seismic data, providing insights into the Earth's layers and potential resources like oil and gas. By examining the transverse recordings of seismic waves, geologists can map out geological formations and assess their stability.In conclusion, the technique of transverse recording serves as a powerful tool across various scientific disciplines. Its ability to capture data in a manner that emphasizes the relationships and interactions within a given system enhances our understanding of complex phenomena. As technology continues to advance, the applications of transverse recording are likely to expand, paving the way for new discoveries and innovations that can benefit society as a whole. Understanding and mastering this technique is essential for researchers and practitioners who aim to push the boundaries of knowledge and improve our world.

在科学研究和工程领域，采用多种方法收集数据和分析现象。其中一种获得广泛关注的方法是横向记录，它指的是在特定平面或方向上捕捉数据的技术，通常是垂直于主要研究轴线。该方法使研究人员能够全面了解所研究的对象，从而更好地理解和解释复杂系统。横向记录在生物学、物理学和材料科学等学科中发挥着至关重要的作用，因为理解三维空间内的相互作用是必不可少的。例如，在生物研究中，横向记录可用于观察组织中细胞的排列。通过切割组织样本并从横向视角记录细胞结构，科学家可以深入了解这些细胞如何相互作用以及与环境的关系。这种方法提供了细胞组织的更清晰图像，这对于理解疾病和开发针对性治疗至关重要。在物理学领域，横向记录通常用于涉及波动的实验，如声波或光波。当研究人员希望研究波在不同介质中传播的行为时，他们可能会采用此技术在横向平面上的不同点捕捉波形。这些数据可以揭示有关波干涉、衍射以及波在与障碍物或彼此相互作用时发生的其他现象的重要信息。此外，在材料科学中，横向记录对于分析材料在应力下的特性至关重要。通过对材料施加力并记录在横截面上的变形，科学家可以确定材料的强度、弹性和破坏点。这些信息对于设计更安全、更高效的结构至关重要，因为它帮助工程师理解材料在现实条件下的行为。横向记录的多功能性不仅限于这些领域，它还可以应用于地球物理学等领域，帮助研究地下结构。地质学家可能使用这种技术分析地震数据，从而提供对地球层及潜在资源（如石油和天然气）的洞察。通过检查地震波的横向记录，地质学家可以绘制出地质构造图，并评估其稳定性。总之，横向记录技术作为一种强大的工具，在各个科学学科中发挥着重要作用。它以强调给定系统内关系和相互作用的方式捕获数据的能力，增强了我们对复杂现象的理解。随着技术的不断进步，横向记录的应用范围可能会扩大，为新的发现和创新铺平道路，从而造福整个社会。理解和掌握这一技术对于旨在推动知识边界和改善我们世界的研究人员和从业者至关重要。