Mercury beating heart

The mercury beating heart in electrochemistry is an effect observed in mercury demonstrating the effect of an non-homogeneous electrical double layer ^[1]. It is often used as a classroom demonstration.

In the experiment a droplet of mercury is placed in a watch glass, immersed in an electrolyte such as sulfuric acid which contains a oxidizing agent such as hydrogen peroxide or potassium permanganate. When the mercury is touched by the tip of an iron nail the drop starts to oscillate.

An electrical double layer forms between the surface of the mercury droplet and the electrolyte solution. At rest this layer is uniform. When the iron tip is introduced a redox reaction starts in which iron is oxidized to the ferric ion. At the same time the oxidizing reagent is spent for instance when hydrogen peroxide together with hydronium ions is reduced to water. Because the oxidation only takes place in the vicinity of the tip and the reduction process covers the whole droplet surface the surface tension is no longer homogeneous resulting in oscillations.

The mercury beating heart was first observed by Carl Adolf Paalzow in 1858. Berzelius is reported to have used electrodes.

• Mercury beating heart video: video 1
• Mercury beating heart video: video 2

• Simple classroom demonstrations: Chemical garden.