Calculate the molarity of the sodium carbonate solution

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To calculate the molarity of the sodium carbonate solution, first determine the number of moles of Na2CO3 by dividing the mass (5.3 g) by its molar mass. Convert the total solution volume from 250 cm³ to liters by dividing by 1000, resulting in 0.25 L. The molarity is then calculated using the formula: molarity = moles of solute / liters of solution. For the 25 cm³ sample used in the reaction, convert it to liters (0.025 L) to find the moles present using the molarity. Understanding these steps allows for tackling similar molarity calculations effectively.
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when a solution of sulphuric acid was standardised the following results were obtained. exactly 5.3g of pure anhydrous sodium carbonate were dissolved in wter and made up to 250cm3 of solution. 25cm3 of this solution were neutralised by 20cm3 of the acid. calculate the molarity of the sodium carbonate solution.

can sum1 show me how2tackle this question pleez??..i wana know what are the steps involved so i can do similar questions on my own..what do i do with this??..thank u!
 
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How would you relate 25cm3 to moles using molarity?
 
GCT said:
How would you relate 25cm3 to moles using molarity?


is molarity = moles over volume??
so 25cm3 needs to be converted into dm3 by dividing by 1000 then how wud i work out the moles??
 
You know the mass of Sodium Carbonate (5.3 g). You can look up/calculate the molar mass. Divide the amount of Na2CO3 you have by the molar mass to get the number of moles you have.

5.3 grams of Na2CO3 is dissolved in 250 cm^ of solution.
Molarity is moles of solute (in this case Na2CO3) / Liters of solution.
1 liter = 1000 cm^3

to get the number of moles of Na2CO3 there are in a certain volume of solution with a known concentration, remember how to calculate the concentration and work backward.
moles / volume = molarity, so molarity * volume = moles
 

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