Determining volume of an acid needed to react with a mass

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To determine the volume of 1.50 mol/dm³ hydrochloric acid needed to react with 1.25 g of calcium carbonate, first calculate the moles of CaCO3, yielding 0.0125 moles. Since the reaction requires 2 moles of HCl for every mole of CaCO3, this results in 0.0250 moles of HCl needed. Using the molar concentration formula (c = n/V), the required volume can be calculated as V = n/c, leading to a volume of 16.7 cm³ of HCl. The confusion arose from incorrectly applying the density of the HCl solution instead of using the molarity directly. Understanding the distinction between the density of the solution and the molarity is crucial for accurate calculations.
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1. Determine the volume of 1.50 mol dm–3 of hydrochloric acid that would react with exactly 1.25 g of calcium carbonate.



2. 2HCl(aq) + CaCO3(s) --> CaCl2(aq) + CO2(g) + H2O(1)



3. I tried to do this: (1.25 g CaCO3) / (100 g CaCO3) = 0.0125 moles of CaCO3
2 moles of HCl are needed for every 1 of CaCO3; therefore, 2*0.0125 = 0.0250 moles of HCl
(0.0250 moles of HCl)(36.46 g HCl) / (1.18 g HCl) = 7.73 cm3 HCl
Unfortunately, the correct answer is 16.7 cm 3 HCl. I know it has something to do with the 1.50 mol dm-3, but I don't know how to do the problem.

Thank you for any help.
 
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Your reasoning up to the point where you conclude that you need 0.025 moles of HCl is good. I am not exactly sure what you have done from there (where did 1.18g come from??)

From the definition of molar concentration, c = n/V, you can find the volume V that you require. You have found that n=0.025 moles of HCl and you have the concentration of HCl, so you can find the volume.
 
Thank you. The density of hydrochloric acid is 1.18 g/cm^3, and I thought I needed to use that. I guess I didn't.
 
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