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2. Euler–Bernoulli beam theory - Wikipedia

   en.wikipedia.org/wiki/Euler–Bernoulli_beam_theory

   Besides deflection, the beam equation describes forces and moments and can thus be used to describe stresses. For this reason, the Euler–Bernoulli beam equation is widely used in engineering, especially civil and mechanical, to determine the strength (as well as deflection) of beams under bending.

3. Deflection (engineering) - Wikipedia

   en.wikipedia.org/wiki/Deflection_(engineering)

   The deflection of beam elements is usually calculated on the basis of the Euler–Bernoulli beam equation while that of a plate or shell element is calculated using plate or shell theory. An example of the use of deflection in this context is in building construction. Architects and engineers select materials for various applications.

4. Macaulay's method - Wikipedia

   en.wikipedia.org/wiki/Macaulay's_method

   The starting point is the relation from Euler-Bernoulli beam theory = Where is the deflection and is the bending moment. This equation [7] is simpler than the fourth-order beam equation and can be integrated twice to find if the value of as a function of is known.

5. Direct integration of a beam - Wikipedia

   en.wikipedia.org/wiki/Direct_integration_of_a_beam

   Direct integration is a structural analysis method for measuring internal shear, internal moment, rotation, and deflection of a beam. Positive directions for forces acting on an element. For a beam with an applied weight w ( x ) {\displaystyle w(x)} , taking downward to be positive, the internal shear force is given by taking the negative ...

6. Moment-area theorem - Wikipedia

   en.wikipedia.org/wiki/Moment-Area_Theorem

   The moment-area theorem is an engineering tool to derive the slope, rotation and deflection of beams and frames. This theorem was developed by Mohr and later stated namely by Charles Ezra Greene in 1873.

7. Bending - Wikipedia

   en.wikipedia.org/wiki/Bending

   The beam is originally straight and slender, and any taper is slight; The material is isotropic (or orthotropic), linear elastic, and homogeneous across any cross section (but not necessarily along its length) Only small deflections are considered; In this case, the equation describing beam deflection can be approximated as:

8. Bending stiffness - Wikipedia

   en.wikipedia.org/wiki/Bending_stiffness

   It is a function of the Young's modulus, the second moment of area of the beam cross-section about the axis of interest, length of the beam and beam boundary condition. Bending stiffness of a beam can analytically be derived from the equation of beam deflection when it is applied by a force.

9. Beam (structure) - Wikipedia

   en.wikipedia.org/wiki/Beam_(structure)

   A beam of PSL lumber installed to replace a load-bearing wall. The primary tool for structural analysis of beams is the Euler–Bernoulli beam equation. This equation accurately describes the elastic behaviour of slender beams where the cross sectional dimensions are small compared to the length of the beam.