static characteristic

简明释义

静态特性

英英释义

例句

1.The static characteristic of the circuit can help predict its performance under different loads.

电路的静态特性可以帮助预测其在不同负载下的性能。

2.The static characteristic of this material is its ability to withstand high temperatures.

这种材料的静态特性是其能够承受高温。

3.The static characteristic of a sensor determines its sensitivity and accuracy.

传感器的静态特性决定了其灵敏度和准确性。

4.In robotics, understanding the static characteristic of joints is crucial for movement accuracy.

在机器人技术中，理解关节的静态特性对运动精度至关重要。

5.Engineers often analyze the static characteristic of a structure before construction.

工程师在施工前通常会分析结构的静态特性。

作文

In the realm of engineering and physics, the term static characteristic refers to the inherent properties of a system or component when it is at rest or in a non-dynamic state. Understanding these characteristics is crucial for designing systems that are stable and efficient. For instance, when engineers design a bridge, they must consider the static characteristic of the materials used, such as their tensile strength and load-bearing capacity. This ensures that the bridge can support the weight of vehicles and withstand environmental forces without collapsing. The static characteristic of a material is often defined by its stress-strain curve, which illustrates how the material responds to applied forces. By analyzing this curve, engineers can determine the elasticity, yield strength, and ultimate tensile strength of the material. These properties are essential for ensuring that structures can safely bear loads over time. In addition to materials, the static characteristic of mechanical systems is equally important. For example, in the design of a car suspension system, engineers must evaluate how the system behaves under static conditions. This includes assessing the weight distribution of the vehicle and how it affects the suspension's ability to maintain stability and comfort while parked or stationary. Moreover, the static characteristic can also apply to electrical circuits. When analyzing a circuit, engineers look at the voltage-current relationship when the circuit is not changing. This helps them to understand how components like resistors and capacitors will behave under steady-state conditions. For example, the resistance of a resistor is a static characteristic that defines how much current will flow through it at a given voltage. Understanding static characteristic is not limited to engineering; it also plays a significant role in various scientific fields. In physics, the study of forces and equilibrium involves analyzing the static characteristic of objects. When an object is at rest, the forces acting on it are balanced, and understanding this balance is critical for predicting how the object will respond to external forces. In conclusion, the concept of static characteristic is integral to many disciplines, including engineering, physics, and materials science. It provides valuable insights into how systems behave under static conditions, allowing professionals to design safer and more efficient structures and devices. Whether it's ensuring a bridge can withstand heavy loads or understanding the behavior of electrical circuits, the static characteristic serves as a foundational principle that guides innovation and safety in technology. Recognizing and applying this concept effectively is essential for anyone involved in the design and analysis of physical systems.

在工程和物理领域，术语静态特性指的是系统或组件在静止或非动态状态下的固有属性。理解这些特性对于设计稳定和高效的系统至关重要。例如，当工程师设计一座桥梁时，他们必须考虑所用材料的静态特性，例如其抗拉强度和承载能力。这确保了桥梁能够支撑车辆的重量，并承受环境力量而不坍塌。材料的静态特性通常由其应力-应变曲线定义，该曲线说明了材料在施加力时的反应。通过分析这一曲线，工程师可以确定材料的弹性、屈服强度和极限抗拉强度。这些属性对于确保结构能够安全地承载负荷至关重要。除了材料，机械系统的静态特性同样重要。例如，在汽车悬挂系统的设计中，工程师必须评估该系统在静态条件下的表现。这包括评估车辆的重量分布以及它如何影响悬挂系统在停车或静止时保持稳定性和舒适性的能力。此外，静态特性也适用于电路。当分析电路时，工程师查看电路在不变动时的电压-电流关系。这帮助他们理解电阻器和电容器等组件在稳态条件下的行为。例如，电阻器的电阻是定义在给定电压下会流过多少电流的静态特性。理解静态特性不仅限于工程，它在各种科学领域中也发挥着重要作用。在物理学中，力和平衡的研究涉及分析物体的静态特性。当一个物体处于静止状态时，作用于它的力量是平衡的，理解这种平衡对于预测物体对外部力量的反应至关重要。总之，静态特性的概念在许多学科中都是不可或缺的，包括工程、物理和材料科学。它提供了关于系统在静态条件下如何表现的宝贵见解，使专业人员能够设计更安全、更高效的结构和设备。无论是确保桥梁能够承受重负荷，还是理解电路的行为，静态特性作为指导技术创新和安全的基础原则。有效地识别和应用这一概念对于任何参与物理系统设计和分析的人来说都是必不可少的。