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A mixture of gases contains 8.94 g of N2, 3.61 g of H2, 2.17 g of NH3. If the total pressure of the mixture is 4.03 atm, what is the partial pressure of each component?Pn2=Ph2=Pnh3=

A mixture of gases contains 8.94 g of N2, 3.61 g of H2, 2.17 g of NH3. If the total-example-1
User Rufus
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To solve this question we have to apply Dalton's Law.

Dalton's Law states that the total pressure of a mixture of gases is the sum of the partial pressures of each of the components of the mixture:


P=P_1+P_2+P_3+...+P_n

Also, that the partial pressure of a component of a mixture is the product of the molar fraction of the component times the total pressure of the mixture:


P_i=y_1P

To solve this problem the first step is to find the molar fractions of each of the components of the mixture. To do this we have to convert the given masses to moles using the corresponding molecular weights:


\begin{gathered} 8.94gN_2\cdot(molN_2)/(28gN_2)=0.319molN_2 \\ 3.61gH_2\cdot(molH_2)/(2gH_2)=1.805molH_2 \\ 2.17gNH_3\cdot(molNH_3)/(17gNH_3)=0.128molNH_3 \end{gathered}

Find the sum of this values to find the total number of moles in the mixture:


N=0.319+1.805+0.128=2.252mol

Divide the amount of moles of each component by the total amount of moles of the mixture to find each of the molar fractions:


\begin{gathered} yN_2=(0.319)/(2.252)=0.142 \\ yH_2=(1.805)/(2.252)=0.802 \\ yNH_3=(0.128)/(2.252)=0.056 \end{gathered}

Finally, apply Dalton's Law to find each of the partial pressures:


\begin{gathered} PN_2=0.142\cdot4.03atm=0.572atm \\ PH_2=0.802\cdot4.03atm=3.232atm \\ PNH_3=0.056\cdot4.03atm=0.226atm \end{gathered}

User Youssef Egla
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