How to measure tonearm effective mass


Some of us who use high or low compliance cartridges fret about mating them with tonearms of low or high effective mass, respectively. Most of us rely upon data supplied by some manufacturers to specify the effective mass of their tonearms, but many manufacturers do not even supply such data. Does anyone know a simple and relatively accurate method for determining effective mass? We know what "effective mass" is; we want to know how to measure it.
lewm
Dgarretson,

where you say "This set-up separates observations related to changing effective mass from observations related to changes in wand composition or length.", there is a further complication.

One of the things affected by wand composition and length is the presence and amplitude of arm resonances. If you happen to clamp the sliding weight at a vibrational antinode you will substantially alter the resonant character of the arm tube. This shows that there is some interaction between the two sets of parameters.

I've been playing with an arm with deliberately split vertical and horizontal effective masses (an idea I stole from the Dynavector DV50X series) and am investigating making the vertical effective mass adjustable. My first method was a simple sliding weight on the arm tube and I came across the resonance interaction I described.

Next up is a method of tuning the counterweight(s) so that the VTF and effective mass are separately tuneable. This gives me a problem if a very light cartridge is used, reducing the distance between the centre of mass of the counterweight and the pivot and reducing the possible adjustment range for effective mass, so I may have to combine the two.

Mark Kelly
Correction to above post:

Where I said "convert the frequency to a period (eg by inversion) and the result is a linear correlation of period shift to equivalnet mass"

I should have said "convert the frequency to a period and square the result. The result is a linear correlation of this quantity and equivalent mass."

My apologies for the error.

Mark Kelly
Lewm,

any arm that has split counter weights can have its effective mass adjusted. Triplanar, Talea, etc.
Mark, My tonearm has the front and rear counterweights riding on separate threaded rods going into the pivot and independent of the arm tube. Thus adjustment of counterweights does not affect the secondary resonance characteristic associated with wand composition or length. Also, its linear design allows separate manipulation of horizontal and vertical mass. Thus far I've found that the vertical mass is the more critical adjustment. Up to two-thirds of the assembly's total moving mass resides in the counterweights-- allowing a wide enough range of adjustment to characterize the tonearm as "universal."

Dan_ed, Indeed a split rear counterweight allows some adjustment. The question is whether the range of adjustment is sufficiently wide for a particular cartridge. In addition, with such an approach it is not possible to separately adjust horizontal and vertical mass; the adjustment of one affects the other.

I would add that with any long pivot arm, the rear counterweight(s) is in the final analysis the slave of the wand/cartridge lever. With a linear wand it is possible to unpack and play with each variable separately.
Dgarretson

Thanks for the clarification. Now that you mention it I saw a phot of your mod to the Terminator (on VA?) and thought it was a very clever solution.

Mark Kelly