96 FKVKU. 



Ikat Dissipation. 

 ISi:mRC Injection. 

 (ju.olit7 of »ir (V) - 64 at 730.26 - 32^ = 41.26 = f. 



V + (V X I' X 0.002035) = v. V — -P~ — 5)9.04. W = V x 0.0BO73 = 4.8 



H ..f air 3.-.'3 = t. Q = W x t;< «p.h. = 4. R X -Vi:! X 0.2374 = 3.CH0G = hcttt given to uir. 



R, ; of wbUtO.18 X IC4.H14 = •J9.54.Vl = hcot (rivpii to raloriinolcr. 



3.CS0C = beat given tu uir. 



Hourly diuipation of heat 33.226 



After Injection 



Quantity of oir (V ) = c:. ul 71^.3 — 32'^ = 39.3 = t'. 



V + (V X f X 0.00203.'>) = v. Y = -,-- = 60.2. W = V X 0.(»h073 = 4.8C 



Rinc in tpmp. of air 2.75 = t. Q = W x t X sp. h. = 4.86 X 2.75 X 0.2374 = 3.1728 = beul given lo air. 

 Rise in temp, of water 0.192 X 1C4.1414 = 31.5152 = heat given to calorimeter. 



3.1728 = beat given lo air. 



Hourly liissijKili'in </ heal 34.688 



SlM.M.VUV. 



Ilnnrly dissipation of heat after injection 34.688 

 llonrly ilisuiipalion of beat before injection 33.226 



JJourly increase of heat dissipation following injection 1.4C2 



Ikat Production. 

 IlEruKE Injection. 



Fall of bodily temperatorc 0.54 = t'. 



Q = W X I' X sp. b.= 12 X 0..54 X 0.75 = 4.86 = hourly lof« from hcul reserve. 

 Hourly dissipation of beat 33.226 

 Loss from beat reserve 4.HG 



Hourly production of heat 28.366 



After Injection 



No (banco of bodily temperature. 



Hourly ili.s:;ipatiuii. >^ hourly production of heat 34.688 



SrMM.\RY. 



Hourly production of beat ofter injection 34.688 

 Hourly prcMluction of beat before injection 28.366 



Oo»» of heat production following injection 6.322 



EXPEUIMENT 75. 

 A larpe dop, n-r-ight 36 pounds. 



