CALCUATE THE HEAT REQUIRED TO CONDENSE 20.05 C2Cl3F2 at 55 degree celcuis to 40 degreee celcuis...

The fluorocarbon compound C2Cl3F3 has a normal boiling point of 47.6 degree celsius The specific heats...

The fluorocarbon compound C2Cl3F3 has a normal boiling point of 47.6 degree celsius The specific heats of Cl3F3(l) and C2Cl3F3(g) are 0.96 J/g-K and 0.67 J/g-K, respectively. The heat of vaporization for the compound is 27.49 kJ/mol. Calculate the heat required to convert 50.0 g of fluorocarbon at 10.0 C degree to fluorocarbon at 85.00 C degree

The fluorocarbon compound C2Cl3F3 has a normal boiling point of 47.6 ∘C. The specific heats of...

The fluorocarbon compound C2Cl3F3 has a normal boiling point of 47.6 ∘C. The specific heats of C2Cl3F3(l) and C2Cl3F3(g) are 0.91 J/g⋅K and 0.67 J/g⋅K, respectively. The heat of vaporization for the compound is 27.49 kJ/mol. Calculate the heat required to convert 40.0 g of C2Cl3F3 from a liquid at 13.20 ∘C to a gas at 83.45 ∘C.

The fluorocarbon C2Cl3F3 has a normal boiling point of 47.6°C. The specific heats of C2Cl3F3(l) and...

The fluorocarbon C2Cl3F3 has a normal boiling point of 47.6°C. The specific heats of C2Cl3F3(l) and C2Cl3F3 (g) are 0.91 J/gK and 0.67 J/gK, respectively. The heat of vaporization of the compound is 27.49 kJ/mol. The heat required to convert 50.0 g of the compound from the liquid at 5.0°C to the gas at 80.0°C is __________ kJ.

Problem 11.46 The fluorocarbon compound C2Cl3F3 has a normal boiling point of 47.6 ∘C . The...

Problem 11.46 The fluorocarbon compound C2Cl3F3 has a normal boiling point of 47.6 ∘C . The specific heats of C2Cl3F3(l) and C2Cl3F3(g) are 0.91 J/g⋅K and 0.67 J/g⋅K , respectively. The heat of vaporization for the compound is 27.49 kJ/mol . Part A Calculate the heat required to convert 60.5 g of C2Cl3F3 from a liquid at 14.50 ∘C to a gas at 88.85 ∘C . Express your answer using two significant figures. Q = kJ

The fluorocarbon compound C2Cl3F3 has a normal boiling point of 47.6 ∘C. The specific heats of...

The fluorocarbon compound C2Cl3F3 has a normal boiling point of 47.6 ∘C. The specific heats of C2Cl3F3(l) and C2Cl3F3(g) are 0.91 J/g⋅K and 0.67 J/g⋅K, respectively. The heat of vaporization for the compound is 27.49 kJ/mol. Part A Part complete Calculate the heat required to convert 51.5 g of C2Cl3F3 from a liquid at 13.95 ∘C to a gas at 75.65 ∘C. Express your answer using one decimal place.

Problem 11.46 The fluorocarbon compound C2Cl3F3 has a normal boiling point of 47.6 ∘C. The specific...

Problem 11.46 The fluorocarbon compound C2Cl3F3 has a normal boiling point of 47.6 ∘C. The specific heats of C2Cl3F3(l) and C2Cl3F3(g) are 0.91 J/g⋅K and 0.67 J/g⋅K, respectively. The heat of vaporization for the compound is 27.49 kJ/mol. Part A Calculate the heat required to convert 72.0 g of C2Cl3F3 from a liquid at 10.30 ∘C to a gas at 76.05 ∘C. Express your answer using two significant figures. Q = 14.83   kJ   SubmitMy AnswersGive Up Incorrect; Try Again; 6...

The fluorocarbon compound C2Cl3F3 has a normal boiling point of 47.6 ∘C. The specific heats of...

The fluorocarbon compound C2Cl3F3 has a normal boiling point of 47.6 ∘C. The specific heats of C2Cl3F3(l) and C2Cl3F3(g) are 0.91 J/g⋅K and 0.67 J/g⋅K, respectively. The heat of vaporization for the compound is 27.49 kJ/mol. You may want to reference (Pages 450 - 453) Section 11.4 while completing this problem. Part A Calculate the heat required to convert 75.0 g of C2Cl3F3 from a liquid at 10.60 ∘C to a gas at 78.80 ∘C. Express your answer using two...

C2Cl3F3 has a normal boiling point of 47.6°C. The specific heats of and C2Cl3F3(g) are 0.91...

C2Cl3F3 has a normal boiling point of 47.6°C. The specific heats of and C2Cl3F3(g) are 0.91 J/gK and 0.67 J/gK, respectively. The heat of vaporization of the compound is 27.49 kJ/mol. The heat required to convert 50.0 g of the compound from the liquid at to the gas at 65.0°C is ________ kJ. a. 1454 b. 8.46 c. 9.63 d. 29.78 e. 2301

How much energy is required to heat 36.0g H2O from a liquid at 65 degrees celsius...

How much energy is required to heat 36.0g H2O from a liquid at 65 degrees celsius to a gas at 115 degree celsius? change in Hvap= 40.7 kJ/mol Specific heat of water(liquid): Cs= 4.18 J/(g degree Celsius) Specific heat of water(gas): Cs= 2.01 J/(g degree Celsius) Tboiling= 100 degree Celsius

What amount of heat (in kJ) is required to convert 25.2 g of an unknown liquid...

What amount of heat (in kJ) is required to convert 25.2 g of an unknown liquid (MM = 83.21 g/mol) at 19.2 °C to a gas at 93.5 °C? (heat capacity of liquid = 1.58 J/g･°C; heat capacity of gas = 0.932 J/g･°C; ∆Hvap = 22.5 kJ/mol; Tb = 57.3°C) Please answer with the correct significant figures.