clinometer

简明释义

英[/klaɪˈnɑːmɪtər/]美[/klaɪˈnɑːmɪtər/]

n. 倾斜仪；测斜器

英英释义

单词用法

同义词

反义词

例句

1.We have validated that it is practical and effective to combine the limit filter and digital lowpass filtering by a large number of experiments. The errors were solved on clinometer of drilling.

通过大量的实验验证，最后，提出了限幅滤波和低通滤波相结合的方法，有效地解决了钻井测斜仪的误差。

2.We have validated that it is practical and effective to combine the limit filter and digital lowpass filtering by a large number of experiments. The errors were solved on clinometer of drilling.

通过大量的实验验证，最后，提出了限幅滤波和低通滤波相结合的方法，有效地解决了钻井测斜仪的误差。

3.The WK pendulum clinometer is easy to use and invaluable for use in awkward locations. Simple to use, yet accurate to suit many applications.

我们生产的钟摆式倾斜仪使用简单，适用于大多数应用。

4.The embedded clinometer, indicating the vehicle status, is an important part of the XX fire control system.

嵌入式倾斜仪是XX火控系统的重要组成部分，是反映车体姿态的测量装置。

5.The embedded clinometer, which uses ARM7 as the operation core to cooperate with a high performance acceleration sensor, achieves measuring the angle by real-time monitoring the acceleration.

嵌入式倾斜仪采用ARM7作为系统核心，配合高性能的加速度传感器，通过实时测量加速度实现倾斜角的监测。

6.In this paper, a new method to measure meshing composite deflections of loaded cylindrical involute helical gear by using high precision clinometer is presented.

提出利用高精度测角仪测量齿轮副在啮合过程中不同啮合位置时轮齿受载综合变形的新方法。

7.The architect checked the roof's pitch with a clinometer before finalizing the design.

建筑师在最终确定设计之前，用倾斜仪检查屋顶的坡度。

8.The engineer used a clinometer to measure the slope of the hill.

工程师使用倾斜仪测量山坡的斜率。

9.Hikers often carry a clinometer to navigate steep terrains.

徒步旅行者经常携带倾斜仪以便在陡峭的地形中导航。

10.In geology, a clinometer helps determine the angle of rock layers.

在地质学中，倾斜仪有助于确定岩层的角度。

11.A clinometer can be useful in forestry to assess tree height.

倾斜仪在林业中可以用来评估树木的高度。

作文

The world we live in is filled with various instruments that help us understand and measure the environment around us. One such instrument is the clinometer, which is used to measure angles of slope, elevation, or depression of an object with respect to gravity. This tool has been essential in various fields, including geology, forestry, and construction. Understanding how to use a clinometer can greatly enhance our ability to analyze landscapes and structures. In geology, for instance, a clinometer is often used to determine the steepness of rock formations. By measuring the angle of inclination, geologists can infer the history of geological events that shaped the area. This data is crucial for understanding landslides, erosion patterns, and the stability of slopes. The ability to accurately measure these angles allows scientists to predict potential hazards and plan accordingly. In forestry, the clinometer serves a different yet equally important purpose. Foresters utilize this instrument to assess tree heights and canopy cover. By measuring the angle from a specific distance to the top of a tree, they can calculate its height using basic trigonometric principles. This information is vital for managing forest resources, as it helps in determining the health of the forest and the amount of timber available for harvest. Moreover, knowing the height of trees can assist in planning for wildlife habitats and ensuring biodiversity. Construction professionals also rely on the clinometer to ensure that buildings and other structures are constructed at the correct angles. When laying foundations or constructing roofs, it is essential to maintain precise angles to prevent structural issues in the future. A small error in measurement can lead to significant problems, including water drainage issues and even structural collapse. Therefore, having a reliable clinometer on-site can save time, money, and ensure safety. The design of a clinometer can vary, but most commonly, it consists of a sighting tube and a protractor. The user looks through the sighting tube at the object in question, aligning it with the zero mark on the protractor. As the angle increases, the protractor indicates the degree of slope or elevation. Some modern clinometers even incorporate digital technology, providing instant readings and enhanced accuracy. In conclusion, the clinometer is a versatile and invaluable tool across multiple disciplines. Its ability to measure angles accurately makes it essential for geologists, foresters, and construction workers alike. By understanding and utilizing a clinometer, we can better navigate and manage the complexities of our environment. Whether it’s assessing the stability of a hillside, measuring the height of a towering tree, or ensuring the integrity of a building, the clinometer plays a critical role in our understanding and interaction with the physical world. Learning to use this instrument not only enhances our technical skills but also deepens our appreciation for the intricate details of the landscape we inhabit.

我们所生活的世界充满了各种各样的仪器，帮助我们理解和测量周围环境。其中一种仪器是clinometer，用于测量物体相对于重力的坡度、升高或降低的角度。这种工具在地质学、林业和建筑等多个领域中至关重要。了解如何使用clinometer可以大大增强我们分析地形和结构的能力。例如，在地质学中，clinometer通常用于确定岩层的陡峭程度。通过测量倾斜角度，地质学家可以推断出塑造该地区的地质事件的历史。这些数据对于理解滑坡、侵蚀模式和坡道的稳定性至关重要。能够准确测量这些角度使科学家能够预测潜在的危险并进行相应的规划。在林业中，clinometer则发挥着不同但同样重要的作用。林务员利用这个仪器来评估树木的高度和树冠覆盖率。通过从特定距离测量到树顶的角度，他们可以使用基本的三角函数计算树木的高度。这些信息对管理森林资源至关重要，因为它有助于确定森林的健康状况以及可收获的木材量。此外，了解树木的高度可以帮助规划野生动物栖息地，确保生物多样性。建筑专业人员也依赖于clinometer来确保建筑物和其他结构按照正确的角度建造。在打基础或建造屋顶时，保持精确的角度至关重要，以防止将来的结构问题。测量中的小错误可能导致重大问题，包括排水问题甚至结构倒塌。因此，在工地上配备可靠的clinometer可以节省时间、金钱，并确保安全。clinometer的设计可能有所不同，但最常见的形式由瞄准管和量角器组成。用户通过瞄准管观察待测物体，将其与量角器上的零标记对齐。随着角度的增加，量角器指示坡度或升高的度数。一些现代clinometer甚至结合了数字技术，提供即时读数和更高的准确性。总之，clinometer是多个学科中一种多功能且不可或缺的工具。它准确测量角度的能力使其在地质学家、林务员和建筑工人中都至关重要。通过理解和利用clinometer，我们可以更好地导航和管理我们环境的复杂性。无论是评估山坡的稳定性、测量高耸树木的高度，还是确保建筑的完整性，clinometer在我们对物理世界的理解和互动中发挥着关键作用。学习使用这种仪器不仅增强了我们的技术技能，还加深了我们对居住环境中复杂细节的欣赏。