Structural.ShearMomentDiagrams History

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March 16, 2011 by admingineer -
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(:title Shear & Moment Diagrams and Equations:)

November 05, 2010 by admingineer -
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Notice that if you integrate the shear diagram you will get your moment curve. In my examples you actually get the negative of the moment curve but you could just as easily get the positive of the moment curve depending on how you've set up your axis'. It's up to your own preference (I prefer for my shear curves to start in the negative).

to:

Notice that if you integrate the shear diagram you will get your moment curve. In my examples you actually get the negative of the moment curve but you could just as easily get the positive of the moment curve depending on how you've set up your axis'. It's up to your own preference (I prefer for my shear curves to start in the negative). If you need to brush up on your math, here is more information on derivatives.

October 24, 2010 by admingineer -
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Changed lines 47-53 from:

R = V = \frac{wl}{2}
V_x = w\left(\frac{l}{2}-x\right)
M_{max} = \frac{wl^2}{8}
M_x = \frac{wx}{2}\left(l-x\right)
{\Delta_{max}\hbox{ (@ center)}} = {\frac{5wl^4}{384EI}}
{\Delta_x} = {\frac{wx}{24EI}\left(l^3-2lx^2+x^3\right)}

to:

(:table border=0 cellpadding=3 cellspacing=0 align=center width=480px:) (:cellnr valign=middle:) R = V (:cell valign=middle:) = \frac{wl}{2} (:cellnr valign=middle:) V_x (:cell valign=middle:) = w\left(\frac{l}{2}-x\right) (:cellnr valign=middle:) M_{max} (:cell valign=middle:) = \frac{wl^2}{8} (:cellnr valign=middle:) M_x (:cell valign=middle:) = \frac{wx}{2}\left(l-x\right) (:cellnr valign=middle:) {Δ_{max}} (@ center) (:cell valign=middle:) = {{5wl^4}\over{384EI}} (:cellnr valign=middle:) {Δ_x} (:cell valign=middle:) = {{wx}\over{24EI}}{\left(l^3-2lx^2+x^3\right)} (:tableend:)

Changed lines 70-73 from:

Δmax = Maximum Deflection Value\\

to:

Δmax = Maximum Deflection Value

I'm sure there is more, but that's enough for now. Now feel free to go back to The Breakdown at the top of the page and see what this shortcut has to offer.

October 24, 2010 by admingineer -
Deleted lines 4-10:

Normally Shear and Moment Diagrams will provide the following:

  • Your Reactions (R1 & R2)
  • The Maximum Shear force and Shear along the Beam (Vmax & Vx)
  • The Maximum Moment and the Moment along the beam (Mmax & Mx)
  • The Maximum Deflection and the Deflection along the beam (Δmax and Δx)
Added lines 14-22:

Normally Shear and Moment Diagrams will provide the following:

  • Your Reactions (R1 & R2)
  • The Maximum Shear force and Shear along the Beam (Vmax & Vx)
  • The Maximum Moment and the Moment along the beam (Mmax & Mx)
  • The Maximum Deflection and the Deflection along the beam (Δmax and Δx)
Added lines 24-60:
Shear Moment Diagram
Fig. 1: Simply Supported Beam with a Distributed Load

This is the most basic of Shear Moment Diagrams.

Notice the following:

  • The beam is simply supported (pinned on one end and a roller on the other). There are numerous types of end conditions such as: fixed-pinned, fixed-fixed, fixed-free, and continuous beams (multiple supports).
  • This Shear and Moment Diagram is differentiated by others by: it's supports and it's loading types. Therefore there will also be a simply supported beam with a concentrated (point) load acting on it.
  • The first diagram in the image shows the load acting on the beam. The second image is the shear diagram of the beam. The third image is the moment diagram of the beam.

(:table border=3 cellpadding=3 cellspacing=0 align=center:) (:cellnr:) It is important to note that::

V = \int F
-M = \int V

Notice that if you integrate the shear diagram you will get your moment curve. In my examples you actually get the negative of the moment curve but you could just as easily get the positive of the moment curve depending on how you've set up your axis'. It's up to your own preference (I prefer for my shear curves to start in the negative). (:tableend:)

The equations:

For each moment diagram you will be provided with a grouping of equations. Here are the applicable equations for the simply supported distributed load diagram I've provided in Figure 1 above:

R = V = \frac{wl}{2}
V_x = w\left(\frac{l}{2}-x\right)
M_{max} = \frac{wl^2}{8}
M_x = \frac{wx}{2}\left(l-x\right)
{\Delta_{max}\hbox{ (@ center)}} = {\frac{5wl^4}{384EI}}
{\Delta_x} = {\frac{wx}{24EI}\left(l^3-2lx^2+x^3\right)}

where:

R = Reactions
Vx = Shear value at a distance 'x' along the beam
Mx = Moment value at a distance 'x' along the beam
Δx = Deflection value at a distance 'x' along the beam
Vmax = Maximum Shear Value
Mmax = Maximum Moment Value
Δmax = Maximum Deflection Value\\
October 24, 2010 by admingineer -
Added lines 1-21:

What are Shear and Moment Diagrams?

Shear and Moment Diagrams are used to help you understand what the shear and moment curve look like for different generic types of beams and loading conditions. Basically it's a shortcut!! No longer will you have to use statics to find a reaction then back up a shear and moment curve. Also with the law of superposition it is very useful to have these so they can be combined and find even more complex systems (like a distributed load with a concentrated load, e.g. a concrete floor with a car driving over it).

Normally Shear and Moment Diagrams will provide the following:

  • Your Reactions (R1 & R2)
  • The Maximum Shear force and Shear along the Beam (Vmax & Vx)
  • The Maximum Moment and the Moment along the beam (Mmax & Mx)
  • The Maximum Deflection and the Deflection along the beam (Δmax and Δx)

(:table border=1 cellpadding=5 cellspacing=0:) (:cellnr bgcolor=#d4d7ba colspan=14 align=center:) The Breakdown (:cellnr:)

  1. Pinned Roller Shear Moment Diagrams
  2. Fixed Pinned Shear Moment Diagrams
  3. Fixed Fixed Shear Moment Diagrams
  4. Fixed Free Shear Moment Diagrams

(:tableend:)

An Example:


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