(C) Step $1$: Calculate the molar mass of $NaOH$.$Molar \ mass = 23 + 16 + 1 = 40 \ g \ mol^{-1}$.Step $2$: Calculate the molarity $(M_1)$ of the stoc

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(C) Step $1$: Calculate the molar mass of $NaOH$.$Molar \ mass = 23 + 16 + 1 = 40 \ g \ mol^{-1}$.Step $2$: Calculate the molarity $(M_1)$ of the stock solution.$M_1 = \frac{\text{mass}}{\text{molar mass}} \times \frac{1000}{\text{volume in mL}} = \frac{5}{40} \times \frac{1000}{450} = 0.125 \times 2.222 = 0.2778 \ M$.Step $3$: Use the dilution formula $M_1 V_1 = M_2 V_2$ to find $V_1$.$0.2778 \times V_1 = 0.1 \times 500$.$V_1 = \frac{50}{0.2778} = 180 \ mL$.

Class 11 Chemistry Some Basic Concepts of Chemistry Chemical stoichiometry

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$5 \ g$ of $NaOH$ was dissolved in deionized water to prepare a $450 \ mL$ stock solution. What volume (in $mL$) of this solution would be required to prepare $500 \ mL$ of $0.1 \ M$ solution?
Given: Molar Mass of $Na$,$O$,and $H$ is $23$,$16$,and $1 \ g \ mol^{-1}$ respectively.

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Some Basic Concepts of Chemistry

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$5 \ g$ of $NaOH$ was dissolved in deionized water to prepare a $450 \ mL$ stock solution. What volume (in $mL$) of this solution would be required to prepare $500 \ mL$ of $0.1 \ M$ solution?Given: Molar Mass of $Na$,$O$,and $H$ is $23$,$16$,and $1 \ g \ mol^{-1}$ respectively.

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$5 \ g$ of $NaOH$ was dissolved in deionized water to prepare a $450 \ mL$ stock solution. What volume (in $mL$) of this solution would be required to prepare $500 \ mL$ of $0.1 \ M$ solution?
Given: Molar Mass of $Na$,$O$,and $H$ is $23$,$16$,and $1 \ g \ mol^{-1}$ respectively.