We present the results of experimental investigations into balancing heavy balls and cylinders on a vertical moving wall using a thin layer of very viscous fluid. It is found that balance can be achieved over a narrow range of wall speeds so that a particle can be held at a fixed height. The fluid motion around the ob ject is complicated in detail and yet the critical values for fixed point behavior show simple scaling with the diameter of the particles. Fluctuations become important near critical conditions and clear differences are found in the distributions for the motion of cylinders and spheres.