hydrostatics
简明释义
英[haɪdrə(ʊ)ˈstætɪks]美[ˌhaɪdrəˈstætɪks]
n. 流体静力学;静水力学
英英释义
Hydrostatics is the branch of physics that studies fluids at rest and the forces and pressures associated with them. | 静水学是物理学的一个分支,研究处于静止状态的流体及其相关的力和压力。 |
单词用法
静水压力 | |
静水平衡 | |
静水学定律 | |
静水学的应用 |
同义词
| 流体静力学 | Fluid statics is a branch of physics that studies fluids at rest. | 流体静力学是研究静止流体的物理学分支。 | |
| 液体力学 | Liquid mechanics deals with the behavior of liquids under various forces. | 液体力学处理液体在各种力作用下的行为。 |
反义词
| 流体动力学 | 流体动力学研究运动中流体的行为。 | ||
| 空气动力学 | 空气动力学对于飞机设计至关重要。 |
例句
1.We supply markets around the world with either components or integrated systems, products including Hydrostatics, Mobile Electronics, Orbital Motors, Valves, and Steering components.
我们向全球市场提供元件以及整套集成系统,产品包括柱塞泵马达、电控元件、摆线马达、多路阀和转向器。
2.Buoyant force is not only the base of hydrostatics which has many applications, but also the key point of physics teaching in the middle school.
“浮力”是流体静力学中应用性较强的基础知识之一,也是初中物理教学的重要内容。
3.Fluids: pressure, hydrostatics, Euler and Lagrange variables of a continuum, continuity equation, Euler equation of motion.
液体:压力、静水力学、欧拉和拉格朗日中值变量的连续性、连续性方程、欧拉方程的运动。
4.Hydraulics is a branch of mechanics science. The base rules of hydraulics include hydrostatics and hydrodynamics.
水力学所研究的基本规律包括水静力学和水动力学两大部分。
5.This paper deals with the necessary pressure for casting fiber-reinforced metal-matrix-composites from two aspects of hydrostatics and hydrodynamics and the formulae of compute are given.
文章从流体静力学和动力学两个方面讨论了浸渗法制造纤维强化金属基复合材料所需的压力,并给出了计算公式。
6.This paper deals with the necessary pressure for casting fiber-reinforced metal-matrix-composites from two aspects of hydrostatics and hydrodynamics and the formulae of compute are given.
文章从流体静力学和动力学两个方面讨论了浸渗法制造纤维强化金属基复合材料所需的压力,并给出了计算公式。
7.Basee on the mixing-length theory of convection, macroscopical stress of the turbulence is used in hydrostatics equation of the stellar structural and evolutionary model.
以恒星结构与演化理论中常用的混合程理论为基础,将湍流作用表现出来的宏观应力引入恒星结构与演化模型中的流体静力学平衡方程。
8.He would rather be a plumber's mate and do a real job that requires doing than learning about hydrostatics sitting at a desk, without understanding what practical use they are going to be.
他宁愿做一个水管工的伙伴,做一份真正需要动手的工作,也不愿坐在桌子前学习流体静力学,而不知道这些东西有什么实际用途。
9.Differential form was introduced into hydrostatics with geometrical viewpoint, the first mensural form of energetics was found.
用几何的观点,把微分形式引进流体静力学,从而得到了热力学第一定律的一次形式。
10.Understanding hydrostatics 静水学 is crucial for designing water storage tanks.
理解静水学对于设计水储存罐至关重要。
11.The principles of hydrostatics 静水学 are essential for understanding how fluids behave at rest.
静水学的原理对于理解流体在静止状态下的行为至关重要。
12.In engineering, hydrostatics 静水学 is used to design dams and levees.
在工程中,静水学用于设计大坝和堤防。
13.The study of hydrostatics 静水学 helps in calculating the pressure exerted by fluids at various depths.
静水学的研究有助于计算流体在不同深度施加的压力。
14.A common application of hydrostatics 静水学 is in determining buoyancy in ships.
静水学的一个常见应用是确定船舶的浮力。
作文
Hydrostatics, defined as the branch of physics that studies fluids at rest, is a fundamental concept in both science and engineering. It deals with the pressure exerted by a fluid in equilibrium and the forces acting on submerged surfaces. Understanding hydrostatics (流体静力学) is crucial for various applications, including designing dams, bridges, and even understanding natural phenomena like tides and atmospheric pressure.In essence, hydrostatics (流体静力学) helps us comprehend how fluids behave when they are not in motion. One of the key principles of hydrostatics (流体静力学) is Pascal's principle, which states that when pressure is applied to a confined fluid, the pressure change occurs throughout the fluid equally. This principle is the foundation for many hydraulic systems, such as car brakes and hydraulic lifts, where a small force applied at one point can generate a much larger force elsewhere.Another important aspect of hydrostatics (流体静力学) is the concept of buoyancy, which explains why objects float or sink in a fluid. Archimedes' principle, which states that an object submerged in a fluid experiences an upward force equal to the weight of the fluid displaced by the object, is a direct application of hydrostatics (流体静力学). This principle is not just theoretical; it has practical implications in fields ranging from naval architecture to medicine, where understanding buoyancy can help in designing better flotation devices and medical equipment.The study of hydrostatics (流体静力学) also extends to the analysis of pressure variations in fluids. For instance, the pressure at a certain depth in a fluid increases with depth due to the weight of the fluid above it. This relationship is described by the hydrostatic pressure formula: P = ρgh, where P is the pressure, ρ is the fluid density, g is the acceleration due to gravity, and h is the height of the fluid column above the point in question. This equation is essential in engineering, especially in calculating the forces acting on submerged structures.Additionally, hydrostatics (流体静力学) plays a significant role in environmental science. Understanding the behavior of groundwater, for example, requires knowledge of hydrostatics (流体静力学) to determine how water moves through soil and rock layers. This knowledge is vital for managing water resources, preventing contamination, and ensuring sustainable practices in agriculture and urban planning.In summary, hydrostatics (流体静力学) is more than just a theoretical concept; it is a practical field of study that impacts our daily lives and various industries. From engineering to environmental science, the principles of hydrostatics (流体静力学) provide essential insights into the behavior of fluids, enabling us to design safer structures, manage resources effectively, and understand the natural world around us. As we continue to explore and apply the principles of hydrostatics (流体静力学), we unlock new possibilities for innovation and sustainability.
流体静力学,定义为研究静止流体的物理学分支,是科学和工程中的一个基本概念。它涉及静止状态下流体施加的压力以及作用于浸没表面的力。理解hydrostatics(流体静力学)对各种应用至关重要,包括设计大坝、桥梁,甚至理解潮汐和大气压力等自然现象。从本质上讲,hydrostatics(流体静力学)帮助我们理解流体在不运动时的行为。hydrostatics(流体静力学)的一个关键原则是帕斯卡原理,它指出当压力施加到一个受限流体上时,压力变化会均匀地发生在整个流体中。这个原则是许多液压系统的基础,例如汽车刹车和液压升降机,其中在一个点施加的小力量可以在其他地方产生更大的力量。hydrostatics(流体静力学)的另一个重要方面是浮力的概念,这解释了物体为什么在流体中漂浮或下沉。阿基米德原理指出,一个浸没在流体中的物体会经历一个向上的力,这个力等于物体排开的流体的重量,这是hydrostatics(流体静力学)的直接应用。这个原则不仅是理论性的;它在从海洋建筑到医学等领域有实际意义,在这些领域中,理解浮力可以帮助设计更好的浮具和医疗设备。对hydrostatics(流体静力学)的研究还扩展到对流体中压力变化的分析。例如,流体某一深度处的压力随深度增加而增加,这归因于上方流体的重量。这种关系通过静水压力公式描述:P = ρgh,其中P是压力,ρ是流体密度,g是重力加速度,h是待测点上方流体柱的高度。这个方程在工程中至关重要,特别是在计算浸没结构所受的力时。此外,hydrostatics(流体静力学)在环境科学中也起着重要作用。理解地下水的行为,例如,需要了解hydrostatics(流体静力学)以确定水如何在土壤和岩层中移动。这一知识对于管理水资源、预防污染以及确保农业和城市规划中的可持续实践至关重要。总之,hydrostatics(流体静力学)不仅仅是一个理论概念;它是一个实践性研究领域,对我们的日常生活和各个行业产生影响。从工程到环境科学,hydrostatics(流体静力学)的原则提供了对流体行为的基本见解,使我们能够设计更安全的结构,有效管理资源,并理解我们周围的自然世界。随着我们继续探索和应用hydrostatics(流体静力学)的原则,我们为创新和可持续性开辟了新的可能性。
