Respuesta :
Answer : The correct answer for molarity = 0.19 [tex] \frac{mol}{L} [/tex] and Molality = 0.18 [tex] \frac{mol}{Kg} [/tex].
Given : Mass of aniline = 6.2 g
Volume of solvent = 350 mL Density of solvent = 1.04 g/mL
1) Molarity : It is defined as number of moles of solute present in Litre of solution . It is expressed as :
[tex] Molarity(M) = \frac{moles of solute(mole)}{volume of solution (L)} [/tex]\
Molairty can be found in following steps :
Step 1 : To calculate mole :
Mole of solute can be calculate using mole formula :
[tex] Mole of solute = \frac{given mass of solute (g)}{molar mass of solute\frac{g}{1 mol}} [/tex]
Molar mass of aniline (C₆H₅NH₂) = 93.13 [tex] \frac{g}{1 mol} [/tex]
Mass of aniline = 6.2 g
Plugging values in mole formula :
[tex] Mole = \frac{6.2 g}{93.13 \frac{g}{1 mol}} [/tex]
Mole = 0.0665 mol
Step 2 : To find volume of solution
Volume of solution = volume of solute + volume of solution
Since addition of aniline does not change final volume , so volume of solvent = volume of solution. Since volume is given in mL , so it need to be converted to L .
1 L = 1000mL
[tex] Volume of solution = \frac{350 mL}{1000mL} * 1 L [/tex]
Volume of solution = 0.350 L
Step 3: Plug value of mole and volume in molarity formula :
[tex] Molarity = \frac{0.0665 mol}{0.350 L } [/tex]
Molarity = 0.19 M or 0.19 [tex] \frac{mol}{L} [/tex]
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2) Molality : It is defined as mole of solute present in Kilogram of solvent . It can be expressed as :
[tex] Molality (m) = \frac{mole of solute (mol)}{Kilogram of solvent (Kg)} [/tex]
Following are the steps to calculate molality :
Step 1: To find mole of Solute :
Mole of solute can be found out using mole formula . It is same as done for molarity .
Mole = 0.0665 mol
Step 2 : To find kilogram of solvent :
Mass of solvent can be calculated using density formula as :
[tex] Density \frac{g}{mL} = \frac{mass (g) }{volume (mL)} [/tex]
Plugging value in density formula :
[tex] 1.04 \frac{g}{mL} = \frac{ mass }{350 mL} [/tex]
Multiplying both side by 350 mL
[tex] 1.04 \frac{g}{mL} * 350 mL = \frac{x}{350 mL } * 350 mL [/tex]
Mass of solvent = 364 g
Since mass is in g, it need to be converted to Kg . ( 1 Kg = 1000 g )
[tex] Mass of solvent = \frac{364 g}{1000g} * 1 Kg [/tex]
Mass of solvent = 0.364 Kg
Step 3: Plug values of mole and Kg in molality formula :
[tex] Molality = \frac{0.0665 mol}{0.364 Kg} [/tex]
Molality = 0.18 m or 0.18 [tex] \frac{mol}{Kg} [/tex]
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