A STUDY IN MOUBIl) AND NORMAL rUYSlOLOaY. 77 



After Section. 



isl Period^ 

 Quantity of air ( V) = 86 St 620.43 — 32° = 30.43 = t'. 



V + ( V X t' X 0.002035) = v. V = ^'^^ = 81. W = V X 0.08073 = C..".4 



1.0fj2 



Fall in temp, of air 4.97 = t. Q = W X t X sp. h. = 6..')4 X 4.97 X 0.2374 = 7.71G4 = beat taken fiom air. 

 Kise in temp, of water 1.65 X 164.1414 = 270.8333 = lieat given to calorimeter. 



7.7164 = heat taken from air. 



Hourly dissipaf,io7i of heat 263.1169 



2d Period— 

 Quantity of air (V) = 87.8 at 670.38 — 32^= 35.38= t'. 



V + ( V X t' X 0.002035) = V. V = -''A = 82. W = V X 0.08073 = G.G 



1.072 



Fall in temp, of air 2.43 = t. Q = W X t X sp. h. = 6.6 X 2.43 X 0.2374 = 3.8074 = heat taken from air. 

 Rise in temp, of water 1.2 X 164.1414 = 196.9697 = heat g:iven to calorimeter. 



3.8074 = heat taken from air. 



Hourly dissipation of heat 193.1623 



Summary. 



Before section, hourly dissipation of heat 194.3583 



After section, hourly dissipation of heat. 1st period 263.1169 



2d period 193.1623 



Ileai Production. 

 Before Section. 



Hourly rise of animal temperatnre 1.44 = t. 



Q = VV X t X sp. h. = 24 X 1-44 X 0.75 = 25.92 = gain of heat reserve. 

 Hourly dissipation of heat 194.3583 



Hourly gain of heat reserve- 25.92 



Hourly heat production 220.2783 



After Section. 

 \sl Period — 

 Fall of animal temperature in 1| hours 4.36, in one hour 3.49 = t. 

 Q = W X t X sp. h. = 24 X 3.49 X 0.75 = 62.82 = heat lost from reserve. 

 Hourly dissipation of heat 263.1169 



Hourly loss from heat reserve 62.82 



Hourly heat production 200.2969 



2d Period— 

 Fall of animal temperature in l\ hours 1.8, in 1 hour 1.44 = t. 

 Q = W X tX sp. h. = 24 X 1.44 X 0.75 == 25.92 = heat lost from reserve. 



Hourly dissipation of heat 193.1623 



Hourly loss of heat from reserve 25.92 



Summary. 



Hourly production of animal heat 167.2423 



Hourly production of heat before section 220.2783 



Hourly production of heat after section : 1st period 200.2969 



2d period 167.2423 



If nerve fibres, whose paralysis is either directly or indirectly capable of acting 

 upon the bodUy temperature, pass down the medulla, it would, a 2»-iori, be probable 



