statics

简明释义

[ˈstætɪks][ˈstætɪks]

n. [力] 静力学

英英释义

Statics is the branch of mechanics that deals with bodies at rest or forces in equilibrium.

静力学是研究静止物体或处于平衡状态的力的力学分支。

It involves the analysis of loads (force and weight) on physical systems in static equilibrium.

它涉及对处于静态平衡的物理系统上载荷(力和重量)的分析。

单词用法

static electricity

n. 静电;静位觉

static state

静态状态

同义词

equilibrium

平衡

The structure is in a state of equilibrium.

该结构处于平衡状态。

stability

稳定性

The stability of the system is crucial for safety.

系统的稳定性对安全至关重要。

rest

静止

The object remains at rest unless acted upon by an external force.

物体在没有外力作用下保持静止。

反义词

dynamics

动力学

The study of dynamics is essential for understanding how forces affect the motion of objects.

动力学的研究对于理解力如何影响物体运动至关重要。

kinetics

运动学

Kinetics explores the relationship between the motion of objects and the forces acting on them.

运动学探讨物体运动与作用于它们的力之间的关系。

例句

1.It is assumed that the reader has previously studied the analysis of certain types of trusses in a course of statics.

假定读者在静力学课程中已经学过某些类型桁架的分析。

2.Statics, the physicist knows, is only an abstraction from dynamics .

物理学家知道,静力学只是动力学的一种抽象。

3.This includes instruction in statics. kinetics. dynamics. kinematics. celestial mechanics. stress and failure. and electromagnetism.

主要课程包括:静力学,动力学,动力学系统,天体力学,压力和故障,电磁学。

4.The bonded warehouse is flooring with carborundum which is wearable dustproof and anti-statics.

仓库地面采用耐磨金刚砂,耐磨、防尘、防静电。

5.Spencer's 1850 book "Social Statics" shows Comtean as well as Victorian concern for social order.

斯宾塞1850年的著作《社会静力学》展现了康提式以及维多利亚式的对社会秩序的关注。

6.Motion and statics are fixed nature and form of existence.

运动和静止都是物质的固有属性和存在方式。

7.To solve this problem, we need to apply the concepts of statics 静力学 to find the equilibrium.

要解决这个问题,我们需要应用静力学的概念来找到平衡。

8.The bridge design relied heavily on statics 静力学 to ensure it could support heavy loads.

桥梁设计在很大程度上依赖于静力学,以确保其能承受重载。

9.A course in statics 静力学 is often required for civil engineering students.

土木工程学生通常需要修读一门静力学课程。

10.In engineering, understanding statics 静力学 is crucial for building stable structures.

在工程学中,理解静力学对于建造稳定的结构至关重要。

11.The principles of statics 静力学 help us analyze forces acting on stationary objects.

静力学的原理帮助我们分析作用于静止物体上的力。

作文

Statics is a branch of mechanics that deals with bodies at rest and the forces acting upon them. In the field of engineering, understanding statics (静力学) is crucial for designing structures that can withstand various loads without collapsing. For instance, when engineers design a bridge, they must analyze the forces exerted by vehicles, wind, and even the weight of the materials used in the construction. This analysis helps ensure that the bridge remains stable and safe for public use.One of the fundamental principles of statics (静力学) is the concept of equilibrium. An object is in equilibrium when the sum of all forces acting on it is zero. This means that the object will not move or will remain at rest. Engineers utilize this principle to calculate the necessary support structures needed to maintain stability. For example, when constructing a skyscraper, engineers must consider the weight of the building itself as well as external forces such as wind and seismic activity. By applying the principles of statics (静力学), they can determine the appropriate materials and design features to ensure the building's integrity.In addition to equilibrium, statics (静力学) also involves the study of moments, which are the rotational effects of forces. Understanding how moments work is essential for ensuring that structures do not twist or bend under load. For example, when designing a cantilever beam, engineers must calculate the moments created by the load at the free end of the beam. This calculation helps them determine the beam's size and material to prevent failure.Moreover, statics (静力学) plays a significant role in everyday life, even if we do not always realize it. Consider the simple act of sitting in a chair. The chair must be designed to support our weight without collapsing. Engineers apply the principles of statics (静力学) to ensure that the chair's legs can withstand the force applied to them and distribute that force evenly to the ground.Another example can be seen in the design of sports equipment. Take a bicycle, for instance. The frame must be designed to handle the weight of the rider while also being lightweight enough to allow for easy maneuverability. Engineers use statics (静力学) to analyze the forces acting on the bike during use, ensuring that it remains stable and safe.In conclusion, the study of statics (静力学) is essential for a wide range of applications, from large-scale engineering projects to everyday objects. By understanding the forces at play and how to maintain equilibrium, engineers can create safe and reliable structures that enhance our lives. Whether we are aware of it or not, the principles of statics (静力学) influence many aspects of our daily existence, highlighting its importance in both engineering and the world around us.

静力学是研究静止物体及其作用力的力学分支。在工程领域,理解statics(静力学)对于设计能够承受各种负荷而不倒塌的结构至关重要。例如,当工程师设计桥梁时,他们必须分析车辆、风以及建筑材料本身的重量所施加的力量。这种分析有助于确保桥梁保持稳定并对公众安全。statics(静力学)的一个基本原则是平衡的概念。当作用在物体上的所有力量之和为零时,物体处于平衡状态。这意味着物体不会移动或将保持静止。工程师利用这一原则来计算维持稳定性所需的支撑结构。例如,在建造摩天大楼时,工程师必须考虑建筑物自身的重量以及风和地震等外部力量。通过应用statics(静力学)的原理,他们可以确定适当的材料和设计特征,以确保建筑物的完整性。除了平衡之外,statics(静力学)还涉及力矩的研究,即力的旋转效应。理解力矩的工作原理对于确保结构在负载下不扭曲或弯曲至关重要。例如,在设计悬臂梁时,工程师必须计算施加在梁自由端的负载所产生的力矩。这种计算帮助他们确定梁的尺寸和材料,以防止失效。此外,statics(静力学)在日常生活中也发挥着重要作用,即使我们并不总是意识到这一点。考虑坐在椅子上的简单行为。椅子必须设计成能够支持我们的重量而不倒塌。工程师应用statics(静力学)的原理,确保椅子的腿能够承受施加于它们的力量,并将该力量均匀分配到地面。另一个例子可以在运动器材的设计中看到。以自行车为例。车架必须设计成能够承受骑行者的重量,同时又要足够轻便,以便于灵活操控。工程师使用statics(静力学)来分析自行车在使用过程中施加的力量,确保其保持稳定和安全。总之,statics(静力学)的研究对于从大型工程项目到日常物品的广泛应用至关重要。通过理解作用的力量及如何保持平衡,工程师能够创造出安全可靠的结构,提升我们的生活。无论我们是否意识到,statics(静力学)的原理影响着我们日常生活的许多方面,突显了它在工程和周围世界中的重要性。