# Assignment 16917

128 J/gÂ°C. Which of the following statements is not true?
Select one:
a. When 10.0 g of lead is heated from 25Â°C to 35Â°C, it gains128 J of heat
b. When 10.0 g of gold is heated from 25Â°C to 35Â°C, it gains128 J of heat
c. Gold and Lead have the same molar heat capacity
d. None of the statements are false
e. Lead has the higher molar heat capacity

Question 2
Calculate Î”H for the reaction
4 NH3 (g) 5 O2 (g) â†’4 NO (g) 6 H2O (g), from the following data:
N2 (g) O2 (g) â†’2 NO (g) Î”H = -181 kJ
N2 (g) 3 H2 (g) â†’2 NH3 (g) Î”H = -92.0 kJ
2H2(g) O2(g) â†’2H2O(g) Î”H = -484 kJ

Question 3
The combustion of propane produces heat according to the equation:
C3H8(g) 5O2(g) â†’ 3CO2(g) 4H2O(g) Î”HÂ° = is â€“2044 kJ
How much heat will be evolved if 2.20g of propane is combusted?

Question 4
A 20.0 g piece of a metal with specific heat of 0.900 J/g.0C at 98.0 0C dropped into 50.0 g water in a calorimeter at 20.0 0C. The specific heat of water is 4.18 J/g.0C Calculate the final equilibrium temperature of the mixture

Question 5
A gas heated and it absorbs 100 kJ of heat. It expand doing 25 kJ of work. What is the internal energy change of the gas?

Question 6
Calculate the standard enthalpy of formation of propane, C3H8(g), given that Î”HÂ°f[CO2(g)] = â€“394 kJ/mol and
Î”HÂ°f[H2O(l)] = â€“242 kJ/mol, and the following thermochemical equation
C3H8(g) 5O2(g) â†’ 3CO2(g) 4H2O(g) Î”HÂ° = is â€“2044 kJ

Question 7
Given that the molecular formula of sand is SiO2 and that its specific heat is 0.84 J/gÂ°C, its molar heat capacity is

Question 8
Calculate the standard enthalpy change for the following reaction given that the Î”HfÂ° of benzene, C6H6(l) is 49 kJ/mol, the Î”HÂ°f of CO2(g) = â€“394 kJ/mol and Î”HÂ°f of H2O(g) = â€“242 kJ/mol:
2C6H6(l) 15O2(g) â†’ 12CO2(g) 6H2O(g) Î”HÂ° = ?

Question 9
The standard enthalpy of formation, Î”HfÂ°, of which of the following is zero at room temperature (298K)?
Select one:
a. All of the above
b. CO2(g)
c. Br2(g)
d. H2O(l)
e. Br2(l)

Question 10
A 47.3 g sample of an alloy was heated to 90.00 oC and then dropped into a beaker containing 90.0 g of water at a temperature of 25.00 oC. The temperature of the water rose to a final temperature of 28.00 oC. The specific heat of water is 4.184 J/goC. What is the specific heat capacity of the alloy?