L 
196 
0 
pi 
(A 
0 
0* 
2. 
cl 
0 
n 
0 
s 
Olefiant Gas. 
Gas of Oxide of Azote. 
Oxisrcn 
Gas. 
to H* 
<*;■ c/> 
5 c 
.0 ? 
Carbo. 
acid 
Gas. 
to 
Om 
•- • 
? p 
Hydro 
>rtn 
Gas. 
fO 
^ c/1 
p 
? s 
Atmos- 
pheric 
Air, 
»«T Hk 
r> Ui 
rk 
d:^ 
0 
• ^ 
Names of the Gases submitted to tiie 
Experiments. 
;o 
0 
00 
01 
CO 
0 
00 
Cn 
CO 
0 
6 
CO CO 
l-i *-vI 
CO 
0 to 
C 5 C 7 
0 O) 
CO •— 
Ca •- 
W CO 
»- M 
Ca ob 
0 
CO CO 
0 07 
Ca CO 
00 •- 
Number of litres of gaswiiicli passed the 
Calorimeter in ten minutes. 
0 
0 
0 
t£> 
6 
to CO 
CO 6 
to ^ 
to to 
to 05 
w CO 
M- 07 
to db 
Thermometer. 
n> ^ 
= 5 . 3 p' 
CO 5- 
E ^ ? 2 
P- n c 
S n ™ S 
£ ® sj 0. 
1 » 
0 
“>i 
Cn 
CO 
V"l 
0 
*^j 
Cn 
8 
0 
-vj 
Cn 
00 
to 
0 p 
'j -a 
p 00 
W ifc. 
0 0 
- 4 j -g 
Ca Ca 
to CO 
0 to 
0 C 
-4 -^1 
Cn 
CO 
C;i 
005 
•4 «4 a 
Ca * 
^ 0 
00 Ca 
Barometer. 
to 
00 
--I 
c» 
QJi 
to 
<r 
to 
VD 
W 
to 
to CO 
CO C7 
00 to 
CD C 
to C5 
CO pi 
05 ^ 
0 07 
CO CO 
9 07 
mI. 05 
4 ^ to 
to CO 
CO Ca 
00 CO 
0 CO 
1 
The same number of litres reduced to the 
temperature of 0°. 
ci 
CO 
1 8 
CO CO 
C 7 
CO 
0 •- 
CO CO 
--I 07 
mI « 
Ca 
CO CO 
Cn Cn 
-g 05 
CO CO 
-4 -J 
CO 07 
Temperature at svhich the current of gas 
entered the calorimeter. 
to 
Ct\ 
0 
Cn 
CO 
0 
to 
CO 
00 
to 
CO 
to 
•£k 
to to 
Ca 
07 05 
CO 
to to 
CO 
Cn Cn 
CO 
CO 00 
to t*0 
C> 4^ 
cb -^7 
0 05 
-J Oi 
to to 
Ca Ca • 
0 
05 00 
«*4 CO 
Temperature of the calorimeter when tlic 
current had rendered it stationary, and 
consequently the temperature of the gas 
which issued from the calorime'er. 
00 
Oi 
CO 
0 
tn 
CD 
to 
Cl 
CO 
00 
CO 
to 
CO 
W 05 
to — 
0 Ca 
Ca 
lo 07 
6 c,n 
►- Oi 
07 to 
to 05 
^ 2 
•4 0 
CO M 
^ 10 
-4 07 
07 <>w 
Temperature of tlie air which surrounded 
the calorimeter. 1 
C7 
-J 
0 
• C7 
to 
07 
to 
0 
•0 
07 
07 -1 
cc *- 
Ca CO 
CO 4^ 
07 
07 07 
-vj {£, 
cil to 
Ca “J 
to Co 
o> -J 
CO d 
CO CO 
‘v^. CO 
M *4 
to to 
to kU 
cc ^ 
05 Ca 
Degrees of the thermometer lost by the 1 
current of gas in passing through the I 
calorimeter. 
Cm 
<J\ 
CO 
0 
00 
Cn 
6 
07 
Ca 
0 
^ MM 
10 Ca 
0 ^ 
Ca *— 
VO •— 
»— MM 
Cn 00 
0 
05 CO 
to 07 
4i. 
to to 
CO to 
0 Cn 
MM MM 
to Cn 
- i .4 • 
to CO 
— 05 
Kxccs.s of tile stationary temperature of 
the ea!oriiiietcr above that of tiie ambient 
airless which was tlie effect of the 
'iihcin whic.'i tlio current was lic.aled. 
•-M 
0 
•vj 
to 
A 
to 
to 
c 
to 
to 
CO 
Ca 
W l-M 
Oi Cn 
^ to 
CO CO 
C7 
CD to 
to ^ 
MM MM 
CO 4X 
CO to 
•4 Cn 
to 4^ 
M— MM 
Ca Ca 
•4 4 k 
C?i 10 
C -5 m 5 
F.xci'ss of the tempcratin'e at wliieli the 
'urrent of gas would have maintained 
'he calorimeter, if the current had been 
the same as in tlie fir-t experiment on the 1' 
itmospherie, air, and if it had experienced 
die same depression of temperature. 
07 
to 
0 
to 
4 . 
CS 
Cl 
to 
ip 
S 
C'l C*i 
to 
M- 05 
CO CO 
CO *g 
0 CO 
►M 00 
MM -O 
4 u 4 w 
6 cb 
►■S. 05 
0 05 
Ca Cn « 
00 CD 
l-'J 4 . 
4 k 4 k 
Excts.s ol toe lunpcratuie at which tin 
jiinent vtould have sustained the caloii- 
’.icUr, if tl e cireumstanee.s had been tin 
.amc as in the preceding column, and if j 
dic gas !iad also been subject to tlie pres- ■< 
ure of (■'' 7 C). ' 'i 
Qi 
to 
0 
to 
44 
Ok 
CO 
Ca 
to 
to 
07 
»-M 
pi 
C5 
o> 
Ca 
CO 
-1 
<0 
CO 
4 k 
io 
MM 
4 k 
MM 
p» 
-4 
CO 
4 k 
Means. “ 
S 
