A sample of N2O3 (g) has a pressure of 0.046 atm. The temperature (in K) is then doubled and the N2O3 undergoes complete decomposition to NO2 (g) and NO (g). Find the total pressure of the mixture of gases assuming constant volume and no additional temperature change. Enter your answer numerically, in terms of atm.

Question

Jake Mueller

Chemistry

21 March, 06:46

A sample of N2O3 (g) has a pressure of 0.046 atm. The temperature (in K) is then doubled and the N2O3 undergoes complete decomposition to NO2 (g) and NO (g). Find the total pressure of the mixture of gases assuming constant volume and no additional temperature change. Enter your answer numerically, in terms of atm.

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Answers (1)

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Jayvion Myers · Answer 1

0.184 atm

Explanation:

The ideal gas equation is:

PV = nRT

Where P is the pressure, V is the volume, n is the number of moles, R the constant of the gases, and T the temperature.

So, the sample of N₂O₃ will only have its temperature doubled, with the same volume and the same number of moles. Temperature and pressure are directly related, so if one increases the other also increases, then the pressure must double to 0.092 atm.

The decomposition occurs:

N₂O₃ (g) ⇄ NO₂ (g) + NO (g)

So, 1 mol of N₂O₃ will produce 2 moles of the products (1 of each), the n will double. The volume and the temperature are now constants, and the pressure is directly proportional to the number of moles, so the pressure will double to 0.184 atm.