23B8 A block of copper (Cpm = 24.44 J K mol¹) of mass 2.00 kg and at 0°C is introduced into an insulated container in which there is 1.00 molume H₂O(g) at 100 °C and 1.00 atm. Assuming that all the vapour is condensed to liquid water, determine: (a) the final temperature of the system; (b) the heat transferred to the copper block; and (c) the entropy change of the water, the copper block, and the total system. The data needed are given in Exercise E3B.7a..MAI

Please complete P3B.8 while using date from E3B.7a

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water in 2.002 bas (8) ME Bes is noiteson to vorm bas valadins besbaste P3B8 A block of copper (Cpm = 24.44 J K mol¹) of mass 2.00 kg and at 0°C is introduced into an insulated container in which there is 1.00 molst H₂O(g) at 100 °C and 1.00 atm. Assuming that all the vapour is condensed to liquid water, determine: (a) the final temperature of the system; (b) the heat transferred to the copper block; and (c) the entropy change of the water, the m copper block, and the total system. The data needed are given in Exercise E3B.7a. que wollat as ois sirbors to omo2 ((68) 1781.2T yobon 302 500

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and 7.00 atm. m E3B.7(a) Calculate the change in entropy of the system when 10.0 g of ice at -10.0°C is converted into water vapour at 115.0 °C and at a constant pressure of 1 bar. The molar constant-pressure heat capacities are: Cp,m(H₂O(s)) sbarc = 37.6JK¹ mol¹; Cpm (H₂O(1)) = 75.3 J K¹ mol'; and Cm(H₂O(g)) = 00.11 33.6 J K¯¹ mol¯¹. The standard enthalpy of vaporization of H₂O(l) is to sus 40.7 kJ mol-¹, and the standard enthalpy of fusion of H₂O(l) is 6.01 kJ mol™¹, om 01.0 lo grila 162 AST both at the relevant transition temperatures. fed dove ab 15.00 of ice at han