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(Multiple Choice) - The question is in the photo I’m sorry For the reaction2HC1 + Na2C03->2NaCl+H20 +CO2179.2 liters of CO2 is collected at STP. How many moles of NaCl are also formed?1. 12.5 moles2. 16.0 moles3. 6.0 moles4. 32.0 moles5. 8.0 moles6. 4.0 moles

(Multiple Choice) - The question is in the photo I’m sorry For the reaction2HC1 + Na-example-1
User Josue Yeray
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1 Answer

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STP (Standard temperature and pressure) states that the temperature is 273 K (0°C) and the pressure is 1 atm.

To solve this problem, we have to find the number of moles of CO2. Based on the given data, we're going to find the number of moles using the following formula:


PV=nRT.

where P is pressure, V is volume, n is the number of moles, R is the ideal gas constant (0.082 atm*L/mol*K) and T is the pressure. Let's solve for 'n' and replace the data that we have (The pressure is 1 atm, volume is 179.2 L and T is 273 K):


\begin{gathered} n=(PV)/(RT)=\frac{1\text{atm}\cdot179.2L}{0.082(atm\cdot L)/(mol\cdot K)\cdot273K}, \\ n=8.005\text{ moles}\approx8molesCO_2. \end{gathered}

The next step is to see how many moles of NaCl are forming by 8 moles of CO2. You can see in the chemical reaction that there are 2 moles of NaCl produced with 1 mol of CO2. The calculation would be a rule of three, like this:


\begin{gathered} 2\text{ moles NaCl}\to1molCO_2 \\ \text{? moles NaCl}\to8molesCO_2. \end{gathered}

And the number of moles would be:


8molesCO_2\cdot\frac{2\text{ moles NaCl}}{1molCO_2}=16\text{ moles NaCl.}

There are 16.0 moles of NaCl formed, the answer would be (2).

User Everton
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