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2.1: Trusses
https://eng.libretexts.org/Bookshelves/Mechanical_Engineering/Mechanics_of_Materials_(Roylance)/02%3A_Simple_Tensile_and_Shear_Structures/2.01%3A_Trusses
This page covers the analysis and application of trusses in structural engineering, focusing on their design, stability, and response to loads. It explores concepts such as static equilibrium, the ene...This page covers the analysis and application of trusses in structural engineering, focusing on their design, stability, and response to loads. It explores concepts such as static equilibrium, the energy method (including Castigliano's theorem), and matrix structural analysis to calculate forces and deflections. Various analytical methods, including finite element analysis, are emphasized for their efficiency in solving truss problems.
2.1: Static Equilibrium
https://eng.libretexts.org/Courses/Northeast_Wisconsin_Technical_College/Statics_(NWTC)/02%3A_Static_Equilibrium_in_Concurrent_Force_Systems/2.01%3A_Static_Equilibrium
Definition of static equilibrium, and its relation to force and acceleration, in terms of both linear and angular acceleration.
4.3: Beam Displacements
https://eng.libretexts.org/Bookshelves/Mechanical_Engineering/Mechanics_of_Materials_(Roylance)/04%3A_Bending/4.03%3A_Beam_Displacements
This page discusses beam deflection prediction techniques critical for materials testing, highlighting methods such as multiple integration of loading functions and the energy method. It covers practi...This page discusses beam deflection prediction techniques critical for materials testing, highlighting methods such as multiple integration of loading functions and the energy method. It covers practical applications like three-point bending, along with the use of dynamic equations and strain energy calculations. Challenges in analysis are noted, with modern software easing complexities.
4.1: Shear and Bending Moment Diagrams
https://eng.libretexts.org/Bookshelves/Mechanical_Engineering/Mechanics_of_Materials_(Roylance)/04%3A_Bending/4.01%3A_Shear_and_Bending_Moment_Diagrams
This page provides an overview of beams as structural elements, detailing their dimensions, attachment points, and analysis methods under bending loads using shear and moment diagrams. It discusses th...This page provides an overview of beams as structural elements, detailing their dimensions, attachment points, and analysis methods under bending loads using shear and moment diagrams. It discusses the relationships between shear and moment curves, illustrated through examples like cantilever and simply supported beams.
2.1: Static Equilibrium
https://eng.libretexts.org/Bookshelves/Mechanical_Engineering/Mechanics_Map_(Moore_et_al.)/02%3A_Static_Equilibrium_in_Concurrent_Force_Systems/2.01%3A_Static_Equilibrium
Definition of static equilibrium, and its relation to force and acceleration, in terms of both linear and angular acceleration.
2.2: Static Equilibrium
https://eng.libretexts.org/Bookshelves/Mechanical_Engineering/Mechanics_Map_(Moore_2nd_Edition)/02%3A_Static_Equilibrium_in_Concurrent_Force_Systems/2.02%3A_Static_Equilibrium
Definition of static equilibrium, and its relation to force and acceleration, in terms of both linear and angular acceleration.

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