CHAPTER LXXIX.
A CALCULATION TO ASCERTAIN THE HEIGHT OF THE BALLOON ON THE DAY OF ASCENT: ONE BAROMETER AND ONE THERMOMETER ONLY, BEING TAKEN UP INTO THE CAR.
Section 423. The Question is stated from Section 36: and the Mode of Operation taken from the _Recapitulation_ of the second Example, Section 409.
Observation before the Ascent:
Below: Barometer 29.8; attached Thermometer 0; detached Thermometer 65°.
Above: Barometer 23¼ = 23²⁵⁄₁₀₀ or 23.25;[135] attached Thermom. 0; detached Thermom. 65°.
There being no attached Thermometers; the _first_ Table is useless: the Barometer below is therefore supposed to be of the same Temperature as when above; the detached Thermometer remaining at the same Degree, viz. 65°.
State the Barometer, thus: when _below_, at 29.8 when _above_, at 23.25.
_End of the first Stage._
424. Find the Height (at the Standard-Heat) corresponding to the Inches and _nearest_ Tenth above and below 23.25: i.e. above 23.2, and below 23.3: by the 2d Table.
Now 23.2 corresponds to 8379.7: and the Difference of .1 above, i.e. to 23.3, is in Feet = 112|.1: by the 3d Column of the same Table.
With this Difference, consult the 3d Table: i.e. with 112, (omitting the .1 as too minute) on the remaining Decimals above 23.2, viz. on 05, as on 5, or ⁵⁄₁₀; and the Answer is 56 Feet: which Number being subtracted from 8379.7, the Remainder 8323.7, is the Height in Feet of the Barometer in the Car, at the Standard-Heat.
Repeat the last Process for the Barometer on the Ground.
Now 29.8, by the 2d Table, corresponds to 1856.0; and there being no Parts or Decimals more minute than a Tenth, viz. .8, there is no Occasion for the 3d Table.
Subtract the Barometer in the Car, from the same when on the Ground; and, by the 2d Table, upper Barom. 23.25, corresp. to 8323.7, and the lower Barom. 29.8, to 1856.0: the Remainder is the Height in Feet —————— of the Barometer in the Car viz. 6467.7, with the Standard-Heat.
_End of the second Stage._
425. Detached Therm. above, at 65° Detached Therm. when below, at 65 ——— Whole Heat 130 Half Heat 65.(00 adding Cyphers) Standard-Heat 31.24 ————— which deduct, and there remains 33.76 Degrees more than the Standard-Heat, for each Barometer.
Then for the Expansion of Air, with such Heat more than the Standard, consult the 4th Table: viz. _with_ 33°.76 _on_ Inches 6467.7, the Height of the Barometer in the Car with the Standard-Heat, thus:
426. _First_, _with_ 33°, _on_ 6467.7 _on_ 6000 as 6000 = 481.1, decimated 481.1 400 as 4000 = 320.7 32.07 60 as 6000 = 481.1 4.811 7 as 7000 = 561.3 .5613 .07 as 7000 = 561.3 .05613 ————————— Expansion = 518.59843
427. _Second_, _with_ .76 _on_ 6467.7: _on_, as before, 6000 = 1108. decim. 11.08 4000 = 738.7 .7387 6000 = 1108. .1108 7000 = 1292.7 .012927 7000 = 1292.7 .0012927 —————————— Expansion = 11.9437197 Add the former 518.59843 ———————————— Total Expansion = 530.5|542197 viz. Height _by Expansion_ in Feet, with more than the Standard-Heat, add to Height in Feet at the Standard-Heat 6467.7 ——————
428. The true Height, in Feet and Tenths, of the Barometer in the Car 6998.2 Feet in a Yard 3) —————— Yards in a Mile 1760) 2332.2 Feet. 1760 (1 Mile. —————— Yards in a Quarter of a Mile 440 ) 572 (1 Qr. 440 ——— 32 Yards.
The Height of the Balloon 1 Mile, 1 Quarter, 32 Yards, and 2 Feet.
_End of the last Stage, and of the Mensuration of Heights._
N. B. A _thermometric_ sliding Rule, for the Expansion of Quicksilver, and of Air, may possibly, from the foregoing Tables, be so contrived and adapted to the Barometer, as to tell the Height by Inspection, while in the Car of the Balloon.