transverse
简明释义
英[ˈtrænzvɜːs]美[ˈtrænzvɜːrsˌˈtrænsvɜːrs]
adj. 横向的;横断的;贯轴的
n. 横断面;贯轴;横肌
复 数 t r a n s v e r s e s
英英释义
Situated or extending across something; lying or being across. | 位于或延伸在某物的横向;横跨或横置。 |
Relating to a direction that is perpendicular to the long axis of a structure or organism. | 与结构或生物的长轴垂直的方向相关。 |
单词用法
横向振动 | |
横向 |
同义词
| 横向的 | 这根梁是横向放置以提供支撑。 | ||
| 交叉的 | 这两条道路在交叉口相交。 | ||
| 侧面的 | 这个区域的侧向移动受到限制。 | ||
| 斜的 | 屋顶的斜角为设计增添了特色。 |
反义词
| 纵向的 | 纵向研究 |
例句
1.Non-uniform thickness in the transverse direction: This is seldom a resin issue.
横向匀厚度不均匀:这很少是树脂的问题。
2.The UTM system divides the Earth into 60 zones, each based on the Transverse Mercator projection.
UTM系统将地球分为60 个区,每个区基于横轴墨卡托投影。
3.The exposure allows for decortication of the pars, facet joint, and transverse processes for bone-grafting and fusion.
暴露过程中可对峡部、关节突关节和横突皮质剥除以便进行植骨融合。
4.Additional transverse reinforcement is not necessary in the lapping zone.
附加横向钢筋是没有必要在搭接处。
5.The living space is defined by transverse walls dividing the space from the adjacent rooms on the ground level and the attic.
居住空间由横墙限定,这些横墙将居住空间与位于一层和阁楼的相邻房间区分开来。
6.A third layer of transverse cellulose strands is indicated as the microscope stage is rotated.
如将显微镜载物台旋转,便能从纤维横断面中看到第三层胞壁。
7.Ship sides shall be transverse framing system, made up by frames and web frames.
舷侧结构均采用横骨架式结构,由肋骨和强肋骨构成。
8.The transverse 横向的 axis of the graph represents the independent variable.
图表的transverse 横向的 轴表示自变量。
9.The doctor explained that the injury affected the transverse 横向的 section of the muscle.
医生解释说,伤害影响了肌肉的transverse 横向的 部分。
10.In geometry, a transverse 横向的 line can intersect another line at any angle.
在几何学中,transverse 横向的 线可以以任何角度与另一条线相交。
11.The engineer designed a transverse 横向的 beam to support the structure.
工程师设计了一个transverse 横向的 梁来支撑结构。
12.During the experiment, we measured the transverse 横向的 wave patterns in the water.
在实验中,我们测量了水中的transverse 横向的 波动模式。
作文
In the study of anatomy, the term transverse refers to a plane that divides the body into upper and lower parts. This is crucial for understanding the organization of the human body, especially in medical fields such as surgery and radiology. The transverse plane, also known as the horizontal plane, allows healthcare professionals to visualize and assess different structures within the body effectively. For instance, when performing an MRI scan, images are often taken in transverse sections to provide a clearer view of internal organs and tissues. Furthermore, in engineering, the concept of transverse is equally significant. It describes forces or movements that act across a structure rather than along its length. For example, when designing bridges, engineers must account for transverse loads caused by wind or traffic. Understanding how these forces interact with materials helps ensure the safety and durability of the structure. In addition, the term transverse is used in various scientific disciplines, including physics and biology. In physics, transverse waves are those where the oscillation occurs perpendicular to the direction of the wave's travel. Light waves are a prime example of transverse waves, where the electric and magnetic fields oscillate at right angles to each other. This characteristic is fundamental to understanding wave behavior and has practical applications in technologies like fiber optics and wireless communication.In biology, the transverse section of a plant can reveal important information about its cellular structure. By examining transverse cuts of stems or leaves under a microscope, scientists can study the arrangement of cells and tissues, which is essential for understanding plant growth and development. Such studies contribute to fields like botany and agriculture, helping researchers develop better crop varieties and improve food production.The versatility of the term transverse highlights its importance across multiple fields of study. Whether in medicine, engineering, physics, or biology, the concept of transverse provides a framework for analyzing and understanding complex systems. It allows professionals to communicate effectively about spatial relationships and forces at play, ultimately leading to advancements in technology and science.In conclusion, the word transverse encompasses a wide range of meanings and applications. From dividing the human body into sections for medical imaging to describing forces in engineering and wave behaviors in physics, it serves as a vital term in our understanding of the world around us. Mastering the concept of transverse not only enhances our knowledge but also equips us with the tools necessary for innovation and discovery in various disciplines.
在解剖学研究中,术语transverse指的是将身体分为上下部分的平面。这对于理解人体的组织结构至关重要,尤其是在外科手术和放射学等医学领域。transverse平面,也称为水平面,使医疗专业人员能够有效地可视化和评估身体内部的不同结构。例如,在进行MRI扫描时,通常以transverse切片的方式拍摄图像,以提供对内脏器官和组织更清晰的视图。此外,在工程学中,transverse的概念同样重要。它描述了作用于结构横向而非沿其长度的力量或运动。例如,在设计桥梁时,工程师必须考虑由风或交通引起的transverse载荷。理解这些力量如何与材料相互作用有助于确保结构的安全性和耐久性。此外,术语transverse在物理学和生物学等多个科学学科中也得到了应用。在物理学中,transverse波是指振动发生在波传播方向垂直的波。光波是transverse波的一个主要例子,其中电场和磁场在彼此的右角振荡。这一特性对于理解波行为至关重要,并在光纤和无线通信等技术中具有实际应用。在生物学中,植物的transverse截面可以揭示其细胞结构的重要信息。通过在显微镜下观察茎或叶子的transverse切片,科学家可以研究细胞和组织的排列,这对于理解植物的生长和发育至关重要。这些研究有助于植物学和农业等领域,帮助研究人员开发更好的作物品种并提高食品生产。术语transverse的多样性突显了它在多个研究领域的重要性。无论是在医学、工程、物理还是生物学中,transverse的概念为分析和理解复杂系统提供了框架。它使专业人员能够有效地沟通空间关系和正在发挥作用的力量,最终推动技术和科学的进步。总之,单词transverse涵盖了广泛的含义和应用。从将人体分为医学成像的部分到描述工程中的力量和物理学中的波行为,它成为我们理解周围世界的重要术语。掌握transverse的概念不仅增强了我们的知识,而且为我们提供了在各个学科中进行创新和发现所需的工具。
