A STUDY IX MORBID AND NO KM A L 1' II Y S 1 L (i Y HO 



Aptee Operation. 



Quantity of air (V) = 129 at 700.58 — 32° = 38.58 = f. 



V + (V X t' X 0.002035) = V. V = ^ = 110.3. W = V x 0.08073 = 8.9 



i.O (i) 



Rise ill temp, of air 5.41 = t. Q = W X t X sp. h. = 8.9 x 5.41 x 0.2371 = 11.4318 = heat given to air. 



Rise iu teuip. of water 1.914 X 130.859 = 250.4641 = heat given to calorimeter. 



11.4318 = heat given to air. 



261.8959 = heat dissipated in 2 hours. 

 Hourly dissipation of heat 130.9479 



Summary. 



Hourly dissipation before operation 101.8728 

 Hourly dissipation after operation 130.9479 



Loss of heat dissipation following operation 30.9249 



Heat Pi-oduction. 

 Before Oper.\tion. 



Rise of bodily temperature in 2 hours 0''.6, in 1 hour 0.3 = t. 



Q = W X t X sp. h. = 14 x 0.3 X 0.75 = 3.15 = heat added to reserve. 



161.8728 = hourly dissipation of lieat. 



Hourly production vfhf.at 165.0228 



After Operation. 



No change in bodily temperature. 



Hourly heat dissipation = hourly heat production 130.9479 



Summary. 



Hourly production of heat before operation 165.0228 

 Hourly production of heat after operation l:!0.9479 



Loss in hourly heat production followirt(j operation 34.0749 



Experiment 86. 



2:45 p. M. — Brain operated on ; centres luechanically destroyed. 



