Three Member Frame - Pin/Pin Side Uniformly Distributed Load

Three Member Frame - Pin/Pin Side Uniformly Distributed Load formulas

\(\large{ e = \frac{h}{L} }\)
\(\large{ \beta = \frac{I_h}{I_v} }\)
\(\large{ R_A = R_D = \frac{ w\;h^2 }{2\;L} }\)
\(\large{ H_A = \frac{w\;h}{8} \; \left( \frac{ 11\;\beta\;e \;+\; 18 }{ 2\;\beta\;e \;+\; 3 } \right) }\)
\(\large{ H_D = \frac{w\;h}{8} \; \left( \frac{ 5\;\beta\;e \;+\; 6 }{ 2\;\beta\;e \;+\; 3 } \right) }\)
\(\large{ M_B = \frac{3\;w\;h^2}{8} \; \left( \frac{ \beta\;e \;+\; 2 }{ 2\;\beta\;e \;+\; 3 } \right) }\)
\(\large{ M_C = \frac{w\;h^2}{8} \; \left( \frac{ 5\; \beta\;e \;+\; 6 }{ 2\;\beta\;e \;+\; 3 } \right) }\)

Units	English	Metric
\(\large{ h }\) = height of frame	\(\large{in}\)	\(\large{mm}\)
\(\large{ H }\) = horizontal reaction load at bearing point	\(\large{lbf}\)	\(\large{N}\)
\(\large{ I_h }\) = horizontal member second moment of area (moment of inertia)	\(\large{in^4}\)	\(\large{mm^4}\)
\(\large{ I_v }\) = vertical member second moment of area (moment of inertia)	\(\large{in^4}\)	\(\large{mm^4}\)
\(\large{ w }\) = load per unit length	\(\large{\frac{lbf}{in}}\)	\(\large{\frac{N}{m}}\)
\(\large{ M }\) = maximum bending moment	\(\large{lbf-in}\)	\(\large{N-mm}\)
\(\large{ A, B, C, D }\) = point of intrest on frame	-	-
\(\large{ L }\) = span length under consideration	\(\large{in}\)	\(\large{mm}\)
\(\large{ R }\) = vertical reaction load at bearing point	\(\large{lbf}\)	\(\large{N}\)

Bending moment diagram (BMD) - Used to determine the bending moment at a given point of a structural element. The diagram can help determine the type, size, and material of a member in a structure so that a given set of loads can be supported without structural failure.
Free body diagram (FBD) - Used to visualize the applied forces, moments, and resulting reactions on a structure in a given condition.
Shear force diagram (SFD) - Used to determine the shear force at a given point of a structural element. The diagram can help determine the type, size, and material of a member in a structure so that a given set of loads can be supported without structural failure.
Uniformly distributed load (UDL) - A load that is distributed evenly across the entire length of the support area.

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