134 fi:vi:r. 



Jliat DisHipation. 

 Ukfobe OrciuTiuN. 

 (iuaiinty of oir ( V) — 132 at 670.87 — 3? — 35.87 — t'. 



V -I- (V X I' X O.OOJon.'l v. V — - ' . — 123. W — V X 0.06073 — 9.93. 



lliw in tem|). of air 0.9^ . AV X t X cp- h. — 9.93 X 0.98 X 0.2374 — 2.3102 — heat given to »ir. 



Itiw in tciup. of water 1.82 X 130.858 — 23H.1G1C — licat given to calorimeter. 



2.3102 '— heat given to air. 



2-10.47 IH s-> heat (liBiiiputed in 2j liouni. 

 fluurly tlitai'pation of heat 9C.14H7 



Arrr.ii C)ri:n.\TioN. 



Quantity of air (V) = 120.5 nt C90.CC — 32° = 37.CC - I'. 



ion \ 



V -f- (V X t' X 0.0020.1 N V = '-"il 112. \V = V X 0.08073 = 9.04 



1 .0 t I 



I'.Il in temp, of nir 79 - \. t^ = W x t X 0.2.'{74 = 1.09.^4 = heat taken from reserve. 

 KiM- in temp, of wulur 2.00 X 130.bi8 — 209..')G7;i = heut given to caloriiuetcr. 



1.C954 = hcut taken from air. 



Summary. 



2C7.K721 ^ heat diiisipated in 2) bouts. 

 i/..rir V ni<Mj.«((r.,i „/ heat 107.14t<.H 



Hourly illssipatioD of heat after operation 107.1488 

 Hourly dissipation of heat before operation 9C.1487 



Gain in hourly heat dissipation following operation 11.0001 



Heat Prcxhicllon. 

 Hr.i-oRi; OPKUATKiN. 



Itise of bodily temperature in 3 hours O0.2, in 1 hour O.OGC = t. 



Q — W X t X "P- t. — 13.5 X O.OCC X 0.75 — 0.668 •= heat added hourly to reserve. 



96.1487 = hourly dli^ipution of licut. 

 0.668 =" heal added to reserve hourly. 



Hourly heat production 96.8167 



AiTKii Operation. 



Uiso of tnxlily temperature in 3 hours (P.2, in 1 hour 0.066 = t. 



Q — W X I X »p. h. = 13.5 X 0.066 X 0.75 = 0.6G8 = heat added to reiwrre. 



0.668 — hourly adililion of heat tn reserve. 

 107.1488 •• hourly dissipation of beat. 



Hourly production of heal 107.8168 

 Summary. 



Hourly heat production after operation 107.81 CS 

 Hourly heat production before operation 96.8167 



Hourly gain of heat production after operation 11.0001 



