Method of, and apparatus for, measuring the true contents of a cylinder of gas under pressure

The invention claimed is: 1. A sensor assembly for measuring physical properties of a gas under pressure within a gas cylinder comprising: a gas cylinder body and a valve arrangement defining a fixed internal volume of the gas cylinder, the sensor assembly comprising a housing, a piezoelectric oscillator for immersion in the gas within the gas cylinder and a drive circuit operable to drive the piezoelectric oscillator such that the piezoelectric oscillator resonates at a resonant frequency, the sensor assembly being arranged to determine the density of the gas within the gas cylinder from the resonant frequency of the piezoelectric oscillator when immersed in said gas, wherein, in use, the housing is located within the fixed internal volume of the gas cylinder and comprises a first chamber and a second chamber, the first chamber being in fluid communication with the second chamber and substantially enclosing said piezoelectric oscillator, and the second chamber being in fluid communication with the interior of the gas cylinder; wherein the sensor assembly further comprises a processor arranged to determine, from the density measurement and from the internal volume of said gas cylinder, the mass of the gas within the gas cylinder. 2. A sensor assembly according to claim 1 , wherein the processor is further arranged to perform repeat measurements of the mass of the gas within the gas cylinder at discrete time intervals to obtain a plurality of measurements, and to determine, from said plurality of measurements, the mass flow of gas to/from the gas cylinder during the discrete time intervals. 3. A sensor assembly according to claim 2 , wherein the processor is arranged to define said discrete time intervals as of the order of seconds. 4. A sensor assembly according to claim 2 , wherein the processor is arranged to apply numerical filtering to said measurements. 5. A sensor assembly according to claim 1 , wherein the first chamber has a wall comprising a first aperture enabling fluid communication between the first and second chambers, and the second chamber has a wall comprising a second aperture to enable fluid communication between the second chamber and the interior volume of the gas cylinder. 6. A sensor assembly according to claim 5 , wherein the first and/or second aperture has dimensions of 0.35 mm or less. 7. A sensor assembly according to claim 6 , wherein the first and/or second aperture has dimensions of 0.22 mm or less. 8. A sensor assembly according to claim 1 , wherein the housing is substantially cylindrical. 9. A sensor assembly according to claim 1 , wherein the housing has a length of 230 mm or less. 10. A sensor assembly according to claim 9 , wherein the housing has a length of 80 mm or less. 11. A sensor assembly according to claim 1 , wherein said piezoelectric oscillator comprises a quartz crystal oscillator. 12. A gas cylinder for containing a gas under pressure, the gas cylinder comprising: a gas cylinder body defining a fixed internal volume; a valve arrangement connected to said gas cylinder body and arranged to enable one or both of selective filling of the gas cylinder with gas and dispensation of gas from said gas cylinder; and the sensor assembly of claim 1 . 13. A gas cylinder according to claim 12 , wherein the sensor assembly is located entirely within the fixed internal volume of the gas cylinder.