The retaining wall to be designed supports the soil behind it and possibly additional superimposed loads (buildings, traffic). Various calculation methods are used to calculate the earth pressure (https://de.wikipedia.org/wiki/Erddruck).

In the following interactive calculation example, the calculation method according to Coulomb is used. In this calculation method, it is assumed that a rigid earth wedge slides downwards on a straight sliding surface and presses on the retaining wall. The sliding movement is inhibited by friction in the sliding joint. The remaining force of the earth wedge acts on the retaining wall. The point of application of the force is at the point of the first third of the wall height from below. The force does not act horizontally on the back of the wall, but is inclined downwards due to the friction between the back of the wall and the soil. It is assumed that this inclination is equal to the internal friction angle of the soil (cf. point C.1.1 Merkblatt SIA 2053).

The earth pressure and the dead weight of the wall together form the resulting force. The point of application of the resulting force is at the intersection of a vertical line through the centre of gravity of the trapezoidal cross-section and the straight line through the direction of force of the earth pressure.

Common type of failure: In practice, a mixture of both types of failure is often found in defective dry stone walls. If too few long binder blocks are installed in the foundation area, the wall can rotate forward and slide forward at the same time. This creates a typical "fracture zone" running diagonally downwards.