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A 233.9 gram sample of an unknown substance (MM = 189.50 g/mol) is cooled from 233.0...
please help!!!! A 272.3 gram sample of an unknown substance (MM = 189.50 g/mol) is cooled from 233.0 °C to 147.6 °C. (heat capacity of liquid = 1.62 J/g. °C; heat capacity of gas = 1.04 J/g. °C; AHvap = 78.11 kJ/mol; Tb = 160.3 °C) How much energy (in kJ) is absorbed/released to cool the gas? pple A 272.3 gram sample of an unknown substance (MM = 189.50 g/mol) is cooled from 233.0 °C to 147.6 °C. (heat capacity...
A 357.7-gram sample of an unknown substance (MM = 92.41 g/mol) is heated from -23.1 °C to 51.8 °C. (heat capacity of solid = 2.96 J/g・°C; heat capacity of liquid = 1.75 J/g・°C; ∆Hfus = 8.04 kJ/mol; Tf = 17.6 °C) A.) How much Energy (in KJ) is absorbed/released to heat the solid? B.) How much energy (in KJ) is absorbed/ released to melt solid? C.) How much energy (in KJ) is absorbed/ released to heat the liquid? D.) What...
Consider the following data for an unknown substance X: AHvap = 21.00 kJ/mol Specific heat capacity of liquid = 2.40 J/g. °C Boiling point = 70.0°C Molar mass=92.00 g/mol When the temperature of 1.000 mole of X(g) is lowered from 94.0°C to form X(1) at 46.0°C, 29.97 kJ of heat is released. Calculate the specific heat capacity of X(9). Specific heat capacity = J/g. °C Submit Answer Try Another Version 5 item attempts remaining
A 90 g sample of a substance released 1.99 kJ of heat as it cooled from 96 to 29°C. What is its specific heat capacity? Answer: J/g•°C
How much heat (in kJ) is released when 125.0 g of steam at 100.0°C is cooled to ice at -15.0°C? The enthalpy of vaporization of water is 40.67 kJ/mol, the enthalpy of fusion for water is 6.01 kJ/mol, the molar heat capacity of liquid water is 75.4 J/(mol ∙ °C), and the molar heat capacity of ice is 36.4 J/(mol ∙ °C).
How much heat is released when 105 g of steam at 100.0°C is cooled to ice at -15.0°C? The enthalpy of vaporization of water is 40.67 kJ/mol, the enthalpy of fusion for water is 6.01 kJ/mol, the molar heat capacity of liquid water is 75.4 J/(mol • °C), and the molar heat capacity of ice is 36.4 J/(mol • °C). A)347 kJ B)54.8 kJ C)319 kJ D)273 kJ
Determine the amount of heat energy (in kJ) needed to warm a 58.5-g sample of ethanol (C2H5OH) from-150°C to 55°C. C2H5OH 46.07 g/mol AHvap 38.56 kJ/mol ΔΗrus 4.90 kJ/mol Boiling Point 78.5°C Freezing Point -117.3°C Specific Heat Capacity (c) of solid 0.249 J/g.°C Specific Heat Capacity (c) of liquid 2.44 J/g.°C Specific Heat Capacity (c) of gas 1.70 J/8.°C
If the melting point of the substance is 70.°C, how much heat would be required to convert 1.0 mol of it from solid at 30.°C into liquid at 105°C? A substance has the following properties: AHfus = 20.0 kJ/mol AHvap = 10.0 kJ/mol Co (solid) = 60. J mol-- K-1 Cp (liquid) = 30. J mol-- K-1 Cp(gas) = 60. J mol-1 K-1
What amount of heat (in kJ) is required to convert 10.1 g of an unknown solid (MM = 83.21 g/mol) at -5.00 °C to a liquid at 52.3 °C? (heat capacity of solid = 2.39 J/g・°C; heat capacity of liquid = 1.58 J/g・°C; ∆Hfus = 3.72 kJ/mol; Tf = 10.3°C)
What amount of heat (in kJ) is required to convert 26.1 g of an unknown solid (MM = 67.44 g/mol) at -15.4 °C to a liquid at 42.7 °C? (heat capacity of solid = 1.95 J/g・°C; heat capacity of liquid = 1.18 J/g・°C; ∆Hfus = 5.72 kJ/mol; Tf = 28.3°C) NOTE: The answer is NOT 4.99