# Solving an indeterminate triangle truss structure (statics)

From the setup of two trusses as shown in this illustration, how can I solve for the axial reaction forces in the trusses, and in the points A and B (Ax, Ay, Bx, By)? It is assumed that the joints exert no torque/bending moment, and the lengths don't really matter, only the angles alpha and beta.

I've drawn two slightly different setups, while the top one reflects the true setup, and the lower one might be easier to solve:

I'm primarily interested in solving this by hand and calculator, and I'm a little rusty on constraint equations and Lagrange multipliers (though that might be overkill).

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All You need is parallelogramm of forces, analyze the angles and apply law of cosines. – Georg Nov 28 '11 at 13:14
The first setup drawn is not statically indeterminate. If you had a truss member vertically from A to B, then it would be. The second setup drawn is not actually constrained and will collapse at the slightest imbalance. Use the joint method and consider the point at which the force is applied. You know the forces in the two members are in the direction of the members. You've got two equations (x and y) and two unknowns - the magnitudes. – Doresoom Nov 28 '11 at 20:43
Is force $F$ known? Are $\alpha$ and $\beta$ known? – 71GA Feb 28 at 2:42

$$T_A \cos \alpha + T_B \cos\beta = 0 \\ T_A \sin \alpha - T_B \sin\beta - F = 0$$
where $T_A$ and $T_B$ are the tensions on the two members.