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静力学
概述
CEA CAPA Partner 机构: CEA CAPA 巴黎 Center
地点: 法国巴黎
Primary Subject Area: 工程
指令: 英语
课程代码: ENGR380CDG
记录来源: University of New Haven
课程详细信息: 300级
Recommended Semester Credits: 3
联系时间: 45
先决条件: Calculus I (fundamentals of integration and derivation)
描述
This course will guide students through statics for engineering, the branch of mechanics that analyzes the forces and torques of bodies in equilibrium. 静力学 defines quantities such as the moment of a force, 的重心, and 转动惯量 that describe how structures and bodies can remain at rest or maintain a constant velocity.
In this course, students will learn about trusses, joints, 帧, and machines. Students will understand the use of forces and 时刻 and how these combine to achieve equilibrium. As a tool for engineering, statics will provide students with the methods to design structures capable of supporting and moving loads safely and effectively from beams to bridges.
The course includes two- and three-dimensional force systems, 时刻, equivalent systems; trusses, 帧, machines; centroids, 质心, 转动惯量, 摩擦, internal axial and shear forces, and engineering applications.
The course will also give you the opportunity to discuss and analyze complex and composite rigid systems, considering their inner structure and identifying the forces and 时刻 required to maintain equilibrium. You will explore the challenges engineers encounter in designing ever more functional structures and machinery and how these designs introduce requirements and constraint on materials.
In this course, students will learn about trusses, joints, 帧, and machines. Students will understand the use of forces and 时刻 and how these combine to achieve equilibrium. As a tool for engineering, statics will provide students with the methods to design structures capable of supporting and moving loads safely and effectively from beams to bridges.
The course includes two- and three-dimensional force systems, 时刻, equivalent systems; trusses, 帧, machines; centroids, 质心, 转动惯量, 摩擦, internal axial and shear forces, and engineering applications.
The course will also give you the opportunity to discuss and analyze complex and composite rigid systems, considering their inner structure and identifying the forces and 时刻 required to maintain equilibrium. You will explore the challenges engineers encounter in designing ever more functional structures and machinery and how these designs introduce requirements and constraint on materials.