The pitch-drop experiment-really more of a demonstration-began in 1927 when Thomas Parnell, a physics professor at the University of Queensland in Australia, set out to show his students that tar pitch, a derivative of coal so brittle that it can be smashed to pieces with a hammer, is in fact a highly viscous fluid. It flows at room temperature, albeit extremely slowly. Parnell melted the pitch, poured it into a glass funnel, let it cool (for three years), hung the funnel over a beaker, and waited.
Eight years later, a dollop of the pitch fell from the funnel’s stem. Nine years after that, another long black glob broke into the beaker. Parnell recorded the second drop but did not live to see the third, in 1954. By then, his experiment had been squirreled away in a dusty corner of the physics department.
The pitch-drop experiment might have fallen into obscurity (or a wastebasket) had it not been for John Mainstone, who joined the physics department at UQ in 1961. One day a colleague said, “I’ve got something weird in this cupboard here” and presented Mainstone with the funnel, beaker and pitch, all housed under a bell jar. Mainstone asked the department head to display it for the school’s science and engineering students, but he was told that nobody wanted to see it. Finally, around 1975, Mainstone persuaded the department to take the bell jar out for the world to see.
To this day, no one person has actually witnessed the moment a drop of pitch has detached and fallen. But that may change. Why? The experiment is now broadcast on a live webcam. John Mainstone is betting that the next drop will happen in 2013. Just don’t hold your breath.