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Question: How many millilitres of a \( 2.5{\text{M}} MgC{l_2} \) solution contain \( 17.5{\text{g}} MgC{l_2}? ...

How many millilitres of a 2.5MMgCl22.5{\text{M}} MgC{l_2} solution contain 17.5gMgCl2?17.5{\text{g}} MgC{l_2}?

Explanation

Solution

To determine how many moles present in the given mass, you would have in that sample, use the molar mass of magnesium chloride. Use the molarity of the solution to find out how many litres that many moles would contain. And then we will finally convert the volume to millilitres from litres.

Formula used:
We would require the formula for molarity to solve this question
molarity=nsvs{\text{molarity}} = \dfrac{{{n_s}}}{{{v_s}}}
Where, ns{n_s} is the number of moles of solute
vs{v_s} is the volume of solvent in litres.

Complete step by step solution:
According to the question,
Molarity of MgCl2MgC{l_2} solution =2.5M= 2.5 M
Molecular weight of MgCl2MgC{l_2} =95.21g/mol= 95.21 {\text{g/mol}}
This would mean that every mole of MgCl2MgC{l_2} will have a mass of 95.21g/mol95.21 {\text{g/mol}}
We have to find what volume of 2.5MMgCl22.5{\text{M}} MgC{l_2} would contain 17.5gMgCl217.5{\text{g}} MgC{l_2}
First let us find out the number of moles in 17.5gMgCl217.5{\text{g}} MgC{l_2}
This can be calculated by simple unitary method
95.21 g95.21{\text{ g}} has 11 mole of MgCl2MgC{l_2}
So, 17.5g17.5{\text{g}} will have 195.21×17.5=0.18\dfrac{1}{{95.21}} \times 17.5 = 0.18 moles of MgCl2MgC{l_2}
Now, we will calculate the volume of the solution with the help of formula above
molarity=nsvs{\text{molarity}} = \dfrac{{{n_s}}}{{{v_s}}}
Rearranging the formula will give us the equation of volume
vs=nsmolarity{v_s} = \dfrac{{{n_s}}}{{{\text{molarity}}}}
Now, let us put the known values in the formula
vs=0.18moles2.5M=0.07352L{v_s} = \dfrac{{0.18 {\text{moles}}}}{{2.5 {\text{M}}}} = 0.07352 {\text{L}}
Now, we will convert litre into millilitres to get or required answer
Hence, the required volume is 0.07352L=73.52 mL0.07352 {\text{L}} = 73.52{\text{ mL}}.

Additional information:
Molarity, which is referred to as molar, is represented by M. The molarity of a solution where one gram of solute is dissolved in a litre of solution is one molar. As we know, the solvent and solute blend is used in a solution to form a solution, so the total volume of the solution is taken.

Note:
In solutions, the majority of reactions occur and it is therefore essential to understand how the amount of substance is expressed when it is present in the solution. The quantity of substances in the solution is expressed in many ways.