In 1814 Troughton had compared with his own scale in London two of the above.

Lenoir Iron Mètre,C. S.39·3802506inches.
“ Brass “39·3803333

In 1832, under resolution of Congress, Hassler again compared the French standards in the United States, using as before the Troughton scale, and reducing all to temperature of 32° F. as follows:

OriginalIron Mètre,179939·3808643inches.
Lenoir“ C. S.39·3799120
Brass MètreC. S.39·380447
Eng. Dept.39·3801714
“ in 182939·3807095
FortinState Dept.39·3796084
Treas. “39·3795983
Iron Mètre“ “39·3807827
GilbertUniv. of Virg.39·365408
Platinum Mètre39·3803278
(Nicollet)39·380511
CanivetIron Toise,176876·74290511
Lenoir179976·74047599

From the mean of his comparisons between the United States brass Troughton standard yard and the authentic French standard mètres used by the Coast Survey, Hassler, in 1832, deduced the value of the mètre at 39·3809172 inches, at 32° F., and by correction for expansion to United States standard temperature of 62° F., he made the mètre at 32° equal to 39·36850154 inches at 62° F.

The British imperial standard and the United States Troughton standard differ by only 0·000762 inch, which applied to the English reduction of 39·37079, would give 39·36996 as the relative value according to Troughton standard.

The difference between these reductions is probably to be attributed to the use of different rates of expansion, in correcting for standard temperatures, which vary considerably, according to high authority as follows for brass at 1° F.

Whitworth, 18760·00000956= 0·00034416in. per yard.
Borda, 17990·000009913= 0·00035687
Smeaton, 17500·000010417= 0·00037501
Hassler0·000010508= 0·0003783
Ramsden, 17600·000010516= 0·0003786
Faraday, 18300·00001059= 0·00038124