The enthalpy of sublimation (direct conversion from solid to gas) of carbon dioxide is 26.1 kJ/mol....

Dry ice is solid carbon dioxide. Instead of melting, solid carbon dioxide sublimes according to the...

Dry ice is solid carbon dioxide. Instead of melting, solid carbon dioxide sublimes according to the following equation: CO2(s)?CO2(g). When dry ice is added to warm water, heat from the water causes the dry ice to sublime more quickly. The evaporating carbon dioxide produces a dense fog often used to create special effects. In a simple dry ice fog machine, dry ice is added to warm water in a Styrofoam cooler. The dry ice produces fog until it evaporates away,...

Dry ice is solid carbon dioxide. Instead of melting, solid carbon dioxide sublimes according to the...

Dry ice is solid carbon dioxide. Instead of melting, solid carbon dioxide sublimes according to the following equation: CO2(s)→CO2(g). When dry ice is added to warm water, heat from the water causes the dry ice to sublime more quickly. The evaporating carbon dioxide produces a dense fog often used to create special effects. In a simple dry ice fog machine, dry ice is added to warm water in a Styrofoam cooler. The dry ice produces fog until it evaporates away,...

Substance ΔHf°gas (kJ/mol) ΔHf°liquid (kJ/mol) ΔHc° (calculated) (kJ/mol) ΔHc° (from NIST) (kJ/mol) Carbon dioxide -393.52 water...

Substance ΔHf°gas (kJ/mol) ΔHf°liquid (kJ/mol) ΔHc° (calculated) (kJ/mol) ΔHc° (from NIST) (kJ/mol) Carbon dioxide -393.52 water -241.83 ± .040 -285.83 ± .040 methane -74.87 -890.31 -890.35 ethane -83.8 ± 0.3 -1560.73 -1560.7 ± 0.3 propane -104.7 ± 0.50 -2219.18 -2219.2 ± 0.46 2,2,4-trimethylpentane -224.1 ± 1.3 -259.3 ± 1.3 -5461.33 (from liquid) -5461.3 ± 1.3 Which of the potential fuels (hydrogen, methane, ethane, propane, 2,2,4-trimethylpentane) is the most efficient? Explain your answer with the calculated enthalpies of combustion.

A cylinder contains 0.200 mol of carbon dioxide (CO2) gas at a temperature of 30.0 ∘C....

A cylinder contains 0.200 mol of carbon dioxide (CO2) gas at a temperature of 30.0 ∘C. The cylinder is provided with a frictionless piston, which maintains a constant pressure of 1.00 atm on the gas. The cylinder is placed on a hot plate and a 920 J of heat flows into the gas, thereby raising its temperature to 124 ∘C. Assume that the CO2 may be treated as an ideal gas. What is the change in internal energy of the...

Carbon dioxide is an important greenhouse gas. Calculate the enthalpy change for a 66.5g sample of...

Carbon dioxide is an important greenhouse gas. Calculate the enthalpy change for a 66.5g sample of CO2 heated from 0.6 C to 50.0 C at constant pressure assuming (a) that Cp,m is not a f(T) and (b) where Cp,m is a f(T). Cp,m(CO2) = 27.11 J/molK at 25 C and a = 44.22 J/mol K, b=0.00879 J/molK^2 and c=-8.62x10^5 K/mol. How does this energy change compare to the average intermolecular force?

Standard enthalpies of formation are obtained from thermodynamic tables as: C2H5OH(l) -224 kJ/mol CO2(g) -398 kJ/mol...

Standard enthalpies of formation are obtained from thermodynamic tables as: C2H5OH(l) -224 kJ/mol CO2(g) -398 kJ/mol H2O(l) -281 kJ/mol. Calculate the enthalpy change of the reaction C2H5OH(l) + 3 O2 ? 2 CO2(g) + 3 H2O Follow the procedures based on Hess's Law: First write down the reactions corresponding to the enthalpies of formation you have been given, reverse the equations if necessary, remembering to change the sign of ?Ho, then combine the equations to give the required process, and...

Data for carbon dioxide: Molecular weight:44.0 Heat capacity of gas phase: 0.036+4.23 x10-5T   (in kJ/moleoC, T is...

Data for carbon dioxide: Molecular weight:44.0 Heat capacity of gas phase: 0.036+4.23 x10-5T   (in kJ/moleoC, T is in oC) Viscosity                                 Pr                    k (W/m K) 180oC2.13 x10-5kg/(m s)                  0.721               0.029 130oC  1.93x10-5kg/(m s)                  0.738               0.025   80oC  1.72x10-5kg/(m s)                  0.755               0.020 Approximate density: 2.0 kg/m3 Data for water: Molecular weight:18.0 Heat capacity for liquid water: 0.0754 kJ/mole oC   Viscosity: Viscosity                                 Pr                    k (W/m K) 180oC139 x10-6kg/(m s)                   0.94                 0.665 130oC  278x10-6kg/(m s)                   1.72                 0.682   80oC  472x10-6kg/(m s)                   3.00                 0.658 Ideal gas constant: 0.08206 L atm/(mol K) Carbon dioxide, with flow rate of 0.10 kg/s, is to be cooled from 180 oC to 80...

1) Describe an example of each of the following that may be found of your kitchen:...

1) Describe an example of each of the following that may be found of your kitchen: Explain how your choice falls into this category, and if there is a chemical name or symbol for it, provide that as well. Provide a photo of your example with your ID card in it. a) a compound b) a heterogeneous mixture c) an element (symbol) Moving to the Caves… Lechuguilla Caves specifically. Check out this picture of crystals of gypsum left behind in...