http://www.ck12.org Chapter 17. Thermochemistry
Known
- mass of SO 2 = 58.0 g
- molar mass of SO 2 = 64.07 g/mol
- ∆H =−198 kJ for the reaction of 2 mol SO 2
Unknown
- ∆H =? kJ
The calculation requires two steps. First, the mass of SO 2 is converted to moles. Then, mol SO 2 is multiplied by the
conversion factor (−198 kJ/2 mol SO 2 ).
Step 2: Solve.
∆H= 58 .0 g SO 2 ×
1 mol SO 2
64 .07 g SO 2×
−198 kJ
2 mol SO 2=− 89 .6 kJStep 3: Think about your result.
The mass of sulfur dioxide is slightly less than 1 mol. Since 198 kJ is released for every 2 mol of SO 2 that reacts,
the heat released when about 1 mol reacts is one half of 198. The 89.6 kJ is slightly less than half of 198. The sign
of∆H is negative because the reaction is exothermic.
Practice Problem- Given the reaction below for the decomposition of mercury(II) oxide:
(a) What is∆H when 0.750 mol of HgO fully reacts?
(b) A certain reaction produces 28.4 g of Hg. How much heat was absorbed in this reaction?
(c) What volume of oxygen gas at STP is produced in a reaction that absorbs 432 kJ of heat?
Lesson Summary
- Enthalpy is the heat content of a system. When a chemical reaction or physical process occurs at constant
pressure, the heat absorbed or released by the system is equal to the enthalpy change of the system. - A calorimeter is an insulated device used in the laboratory to measure the enthalpy change during a reaction.
- Thermochemical equations show the heat that is either absorbed or released during a reaction. The enthalpy
change (∆H) for a reaction can be used as a conversion factor in solving problems.
Lesson Review Questions
Reviewing Concepts
- What experimental condition is required for the heat change in a reaction to be numerically equal to the
enthalpy change (∆H)?