The following information is given for
magnesium at 1atm:
boiling point = 1090 °C | deltaHvap(1090 °C) = 132 kJ/mol |
melting point = 649 °C | deltaHfus(649 °C) = 8.95 kJ/mol |
specific heat solid= 1.02 J/g°C | |
specific heat liquid = 1.34 J/g°C |
kJ are required to melt a 23.9 g sample of solid
magnesium, Mg, at its normal
melting point.
The following information is given for magnesium at 1atm: boiling point = 1090 °C deltaHvap(1090 °C)...
The following information is given for iron at 1atm: boiling point = 2750 °C deltaHvap(2750 °C) = 354 kJ/mol melting point = 1535 °C deltaHfus(1535 °C) = 16.2 kJ/mol specific heat solid= 0.452 J/g°C specific heat liquid = 0.824 J/g°C kJ are required to melt a 35.4 g sample of solid iron, Fe, at its normal melting point.
1)The following information is given for tin at 1atm:boiling point = 2270 °CΔHvap(2270 °C) = 230 kJ/molmelting point = 232 °CΔHfus(232 °C) = 7.07 kJ/molspecific heat solid= 0.226 J/g°Cspecific heat liquid = 0.243 J/g°CWhat is ΔH in kJ for the process of freezing a 35.6 g sample of liquidt in at its normal melting point of 232 °C.2)The following information is given for antimony at 1atm:boiling point = 1440 °CΔHvap(1440°C) = 195 kJ/molmelting point = 631 °CΔHfus(631°C) = 19.6 kJ/molspecific heat solid=...
The following information is given for lead at latm: AH yap(1740 °C) -178 kJ/mol AH fus(328 °C) = 4.77 kJ/mol boiling point = 1740 °C melting point = 328 °C specific heat solid= 0.130 J/gºC specific heat liquid = 0.138 J/gºC What is AH in kJ for the process of freezing a 26.3 g sample of liquid lead at its normal melting point of 328 °C. The following information is given for silver at latm: AHvap(2212 °C) = 254 kJ/mol...
The following information is given for antimony at 1 atm: boiling point = 1440 °C Hvap(1440 °C) = 195 kJ/mol melting point = 631 °C Hfus(631 °C) = 19.6 kJ/mol specific heat solid = 0.209 J/g°C specific heat liquid = 0.259 J/g°C What is H in kJ for the process of freezing a 45.3 g sample of liquid antimony at its normal melting point of 631 °C.
The following information is given for magnesium at 1atm: = 1090.00°C (1090.00°C) = J/g = 649.00°C (649.00°C) = J/g Specific heat solid = 1.017 J/g °C Specific heat liquid = 1.339 J/g °C A 49.90 g sample of liquid magnesium at 706.00°C is poured into a mold and allowed to cool to 22.00°C. How many kJ of energy are released in this process? (Report the answer as a positive number.) Energy = ____ kJ
14. For bismuth, Bi, the heat of fusion at its normal melting point of 271 °C is 11.0 kJ/mol. The entropy change when 2.45 moles of solid Bi melts at 271 °C, 1 atm is J/K. For magnesium, Mg, the heat of fusion at its normal melting point of 649 °C is 9.0 kJ/mol. The entropy change when 1.72 moles of liquid Mg freezes at 649 °C, 1 atm is J/K
The following information is given for ether, C2H30C2H5, at 1 atm: boiling point = 34.6 °C AH ap(34.6 °C) = 26.5 kJ/mol melting point =-116 °C AH fus(-116 °C) = 7.27 kJ/mol specific heat liquid = 2.32 J/gºC At a pressure of 1 atm, kJ of heat are needed to vaporize a 35.6 g sample of liquid ether at its normal boiling point of 34.6 °C.
The following information is given for mercury at 1 atm: boiling point-357°C AHvap 0.296 kJ/g melting point--39 °C AHfus 11.6 J/g Heat is added to a sample of solid mercury at its normal melting point of -39 °C. How many grams of mercury will melt if 12.3 kJ of energy are added?
The following information is given for n-pentane, C5H12, at 1am boiling point = 36.2°C AHyap(36.2 °C) = 25.8 kJ/mol specific heat liquid = 2.28 J/gºC At a pressure of 1 atm, what is AH in kJ for the process of condensing a 38.4 g sample of gaseous n-pentane at its normal boiling point of 36.2 °C The following information is given for ethanol, C,H,OH, at 1am: boiling point = 78.4°C AH ap(78.4 °C) = 38.6 kJ/mol specific heat liquid =...
The following information is given for benzene, CH at 1 atm: boiling point So.1 °C AHap(80.1 °C)=30.7 kJ/mol melting point AHfus(5.50 °C)9.95 kJ/mol 5.50 °C specific heat liquid 1.74 J/g°C At a pressure of 1 atm, what is AH in kJ for the process of condensing a 49.4 g sample of gaseous benzene at its normal boiling point of S0.1 °C kJ