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# Concise Engineering Mechanics [Editor Li Peichao] 2013

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• Category: Architecture Books
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Mechanics of simple engineering: Pei Chao, Fan Zhiyi, Liu Xiaomei ed Publication date: 2013
Series edited items: Supporting teaching materials for outstanding engineer education and training plan · Engineering basics series Brief introduction "Supporting teaching materials for outstanding engineer education and training plan · Engineering basics series: Concise engineering mechanics" is based on the teaching requirements of basic courses for engineering majors. Compiled by teachers' teaching experience. "Supporting Teaching Materials for Excellent Engineer Education and Training Program · Engineering Basics Series: Concise Engineering Mechanics" is divided into 4 articles: statics, kinematics, dynamics, and material mechanics. "Supporting Teaching Materials for Excellent Engineers Education and Training Program · Engineering Basics Series: Concise Engineering Mechanics" focuses on enhancing the understanding and application of theory, and introduces a large number of engineering examples related to architecture, machinery, materials, automotive, aviation and other majors, bringing theory and practice Closely connected. Each chapter is equipped with a proper amount of exercises to help students master relevant knowledge through practice. The "Supporting Teaching Materials for Excellent Engineer Education and Training Plan · Engineering Basics Series: Concise Engineering Mechanics" is comprehensive, suitable for students of engineering majors in colleges and universities, and can also be used as a reference for related technical personnel.
Introduction to the Main Symbol Tables Chapter 1 Statics Chapter 1 Basics of Statics
1.1 Rigid bodies and forces
1.2 Axioms of Statics
1.3 Constraints and Constraints
1.4 Force Analysis of Objects and Exercise Diagrams Chapter 2 Plane Force System
2.1 Geometric method for the synthesis and balance of plane meeting forces
2.2 Analytical method for synthesis and equilibrium of plane meeting force system
2.3 Moment of plane force versus point
2.4 Plane force couple system
2.5 Planar arbitrary force system
2.6 Object system balance
2.7 Plane simple truss
2.8 Friction Exercises Chapter 3 Space Forces
3.1 Projection of Force on Space Rectangular Coordinates
3.2 Moment of force versus axis
3.3 Equilibrium equation of space force system and its application
3.4 Center of gravity and centroid exercises
4.1 Vector Path Method
4.2 Cartesian coordinate method
4.3 Natural Law Exercises Chapter 5 Basic Motion of Rigid Body
5.1 Parallel movement of a rigid body (translation)
5.2 Rigid body rotates around a fixed axis (fixed axis rotation)
5.3 Gear ratios in gear trains
6.1 Relative motion, implication motion, absolute motion
6.2 Point theorem of speed composition
6.3 Acceleration synthesis theorem at the point of translation of the kinetic system
6.4 Acceleration Synthesis Theorem for Fixed Point of Motion System Rotation
7.1 Overview of rigid body plane motion
7.2 Decomposition of rigid body plane motion
7.3 Base Point Method and Projection Method
7.4 Finding the Speed of Points in a Planar Graph Using the Instant Center Method Chapter 3 Dynamics Chapter 8 Basic Theorems of Dynamics
8.1 Differential Equations of Particle Motion
8.2 Momentum theorem
8.3 Momentum theorem
8.4 Kinetic Theorem Exercises ...
Chapter 4 Materials Mechanics Appendix A Beam Deflection and Angle Appendix B Section Steel Table Part Exercise Answer References