A STUDY IN MORBID AND N R lifA L niYSIOLOGY. 1]5 



After Operation. 



Quantity of air (V) = 103 at TO-^-Gg — 32- = 38.69 = t'. 

 V + (V X t' X 0.002035) = v. V = J 



1U3 

 1.79 



95.i 



W 



V X 0.0S073 = 7.7 



Rise in temp, of air 0.5 = t. Q = W X t X sp. h. = 7.7 X 0.5 X 0.2374 = 0.914 = heat given to air. 

 Rise in temp, of water 1.407 X 130.859 = 191.97 = beat given to calorimeter. 



0.914 = beat given to air. 



192..SS4 = beat dissipated in 2 hours. 

 Hourly dissipation of heat 9G.442 



Summary. 



Hourly dissipation of beat before operation 116.1 23G 

 Hourly dissipation of beat after operation 90.442 



Loss in hourly heat dissipation following operation 19. OHIO 



\ Heat Production. 



Before Operation. 



Rise of bodily temperature in 2 hours 0"'.4. in 1 hour 0.2 = t. 

 Q = W X t X sp. b. = 15.25 X 0.2 X 0.75 = 2.2875 = heat added to reserve. 



116.1236 ^ hourly dissipation of heat. 

 2.2875 = beat added hourly to reserve 



Hourly production of heat 118.4111 



After Operation. 



Fall of bodily temperature in 2 hours 0.2, in 1 hour 0.1 = t. 

 Q = W X t X sp. b. = 15.25 X 0.1 X 0.75 = 1.1437 = boat lost from reserve. 



90.442 = hourly dissipation of beat. 

 1.1437 ^heat hourly lost from reserve 



Hourly production cf heat 



95.2983 



Summary. 



Hourly produetion of beat before operation 118.4111 

 Hourly production of beat after operation 95.2983 



Hourly loss of hent product ion followinij operation 23.1128 



Experiment 84. 



3 p. M. Brain operatcf] on, niorlianical destruction; very violent circus movemeiiis at once came 



on. 3:15 p. m. — Dog quiet. 



3:25 p. M.— Rectal tenipcratnrc 102". 



