There are some lovely physics demonstrations that get repeatedly wheeled-out for things like Open Day and visits from school groups. Things like holding a spinning bike wheel on a rotating chair (flip it over and you start rotating – conservation of angular momentum) and levitating a piece of superconductor above a magnet at liquid nitrogen temperatures. But one thing that I’ve yet to get my hands on to demonstrate is Cavorite.
I think it’s an excellent suggestion, but with two minor drawbacks. One, it comes with significant health and safety concerns, and two, it is fictional.
The material Cavorite makes an appearance in H.G. Wells’ novel "The First Men in the Moon". Its basic characteristic is that it is impervious to gravity – that is, if you put a sheet of Cavorite on the floor, anything you put on top of the Cavorite will be weightless. Now, you can imagine that would be great fun, but it plays havoc with air pressure which is why one needs an appropriate risk management strategy before children can be allowed near it.
In the novel, Dr Cavor uses it to power a space ship to the moon – first of all he uses it to control air pressure to blast his ship off from the earth, then by opening and closing shutters of Cavorite he allows the moon’s gravitational attraction to pull the ship towards its destination, but shuts off that of the earth.
A fun concept for a novel, but more seriously we can ask whether it is at all plausible that Cavorite could exist. For example, it is possible to shield the electrostatic force - simply putting a sheet of electrically conductive material between two charges will mean that neither can ‘see’ each other (there are issues though – both charges will be attracted to the sheet) – so why not gravity? Now, in some ways electrostatics is similar to gravity – both obey the inverse square law for example, but in other ways it is not. There are positive and negative charges, but there is not positive and negative mass. Gravity is always attractive. From what we understand from General Relativity, a mass distorts space-time, which will be felt by another mass. To create Cavorite, we have somehow to put a rip through space-time. Can it be done?
It is perhaps just possible that the Higgs Boson can shed some light on this. I don’t think anyone seriously expects its discovery (if it happens) and subsequent analysis will help us create Cavorite (would we want to?) but it will probably help us to understand just what mass really is. And that is of great interest to physics. Roll on Large Hadron Collider switch-on.