A STUDY IN MORBID AND N O R M A L i> II V S J O 1, U U K 1 23 



Afieii Opeuation. • 



Quantity ot air (V) = 144.8 at 710.52— 32° = .39.52 = t'. 



V+(VX t'x 0.002035) = v. V = ^J^ = 134. W = V x 0.08073 = 10.8 



Rise in temp, of air = 1.47 = t. Q = W x t X sp- h. = lO.S X 1-47 X 0.2374 = ;17G89 =heat given to air. 

 Rise in temp, of water 2.001 X 79.5430 = 159.1G67 = heat giveu (o calorimeter. 



3.7C89 = heat given to air. 



1C2.9356 = heat dissipated iu 1^ hours. 

 Ilourly disfiipation of heat 108.0237 



Summary. 



Hourly dissipation of heat before operation 123.3277 

 Hourly dissipation of heat after operation 108.0237 



Hourly loss of heat dissipation fuHoivinrj operation 14.704 



Heat Produdloih. 

 Before Operation. 



Fall of bodily temperature in 1^ hours 0°.6, in 1 hour 0.4 = t. 



Q = W X t X sp. h. = 11.5 X 0.4 X 0.75 = 3.45 = heat lost from reserve. 



123.3277 = hourly dissipation of heat. 

 3.45 ^ hourly loss from licat re.serve. 



Hourlii production of heat 119.8777 



After Operation 



Rise of bodily temperature in H honrs 2". 2, in 1 liour 1.4GG7 = t. 



Q = W X t X sp- li- = 11-3 X 1.4GG7 X 0.75 = 12.65 = heat added to reserve. 



108.6237 ^hourly dissipation of heat. 

 12. G5 ^ hourly addition to heat reserve. 



Summary. 



Hourly piroduction if heat 121.2737 



Hourly production of heat after operation 121.2737 

 Hourly production of heat before operation 119.H777 



Hourly gain ef heat production after operation 1.396 



Experiment S8. 



A rur. Weight 32.75 pounds. 



3 p. M. — Brain operated on uiecliUMJcaliy. 



