A STUDY IN MORBID AND NOilMAL I'DYSIULOGV. 1:^1 



After Opeuation 



Quantity of air (V ) = 129 at 680.38 — 32° = 30.38 = t'. V -f (V x t' X 0.002035) = V. 



V = —^- = 120. W = V X 0.0S073 = 9 7 

 1.074 



Kise ill temp of air 3.46 = t. Q = AV X t X sp h. = 3.4C X 0.2374 x 0.75 = 0.0101 = lieal Kivcu to air. 



Kisc in temp, of water 2.088 X 79.5430 = 1C0.087 = lieat given to calorimeter. 



0.0101 ^ heat given to air. 



100.7031 = lieat dissipated in 1^ hours. 

 Hourly dissipation of heat 111.1354 



Second Period — 

 Quantity of air (V) = 128.3 at 69^.01 — 32'^ = 37.01 = t'. 



V + (V X t' X 0.002035) = v. V = -^?^;i? = 119.3. W = V X 0.0S073 = 9.03 



1.0i5 



Rise in temp, of air 0.5G = t. Q = W X t X sp. h. = 9.03 X 0.50 X 0.2374 = 1.2802 = heut given to air. 



Eise in temp, of water 2.802 X "9-5436 = 222.8812 = heat given to calorimeter. 



1.2802 = heat given to air. 



224.1014 = heat dissipated in 2 hcjurs. 

 Hourly dissipation of heat 112.0807 



SUMMAKY. 



Hourly heat dissipation t)efore operation 94.28 



Hourly heat dissipation after operation : First period 111.1354 



Second period 112.0807 



Heat Production. 

 Before Operation. 



Rise of bodily temperatnre in H- hours 0°.4, in 1 hour 0.2006 = t. 

 Q = W X t X sp. h. = H.3 X 0.2000 X 0.75 = 1.06 = heat added hourly to reserve. 



94.28 = hourly dissipation of heat. 

 1.00 = hourly addition to reserve. 



Hourly heat produetion 95.94 



After Oper.^tion. 

 First Period — 

 Rise of bodily temperature in 1| hours 0°.2. in 1 hour 0.1333 = t. 

 Q = W X t X sp- h. = 8.3 X 0.1333 X 0.75 = 0.83 = heat added hourly to reserve. 



111.1354 = hourly dissipation of heat. 

 0.83 ^ hourly addition to reserve. 



Hourly heat production 111.9654 



Second period — 

 Fall of bodily temperature in 2 hours 2°, in 1 hour 1= t. 

 Q = W X t X sp. h. = 8.3 X 1 X 0.75 = 6.225 = heat lost from reserve. 



1 12.0807 = heat dissipated hourly. 



6.225 = heat hourly lost from reserve. 



Hourly heat production 105.8557 

 Summary. 



Hourly heat production before operation 95.94 



Hourly heat production after operation: First period 111.9654 



Second period 105.8557 



Gain in heat production follotving operation : First period 16.0254 



Second period 9.9157 



16 June, 18S0 



