Math, asked by VeetRaaj, 1 year ago

calculate the mass of potassium chlorate required to produce 35 g of potassium chloride on complete decomposition

Answers

Answered by Anonymous
5
 <b>
Answer: 57.55 g

Explanation

1. Write the balanced equation

 \mathbb{2KCLO_3 \rightarrow 2KCL + O_2}

2. Calculate the atomic mass

 \rm {2[ 39 + 35.5 + (16 \times 2) \rightarrow 2(39 + 35.5) + 3(32)} \\ \rm2(39 + 35.5 + 48) \rightarrow 2 \times 74.5 + 96 \\ \rm 2 \: \times \: 122.5 \rightarrow 149 + 96 \\ \rm245 \rightarrow 245

3. From the equation we can find that to produce 149 g of KCL we need 245 g of \mathbb{KCLO_3}.

Hence, 149 g of \mathbb{KCL} is produced by \large\bf{245} g of \mathbb{KCLO_3}.

1 g of \mathbb{KCL} is produced by \large \bf \frac{245}{149} g of \mathbb{KCLO_3}.

35 g of \mathbb{KCL} is produced by \large \bf \frac{245}{149} \times 35 = 57.55 g of \mathbb{KCLO_3}.
Answered by Anonymous
12
 \huge \mathfrak {Answer:-}

 \bold{Reaction:-}

2KClO_{3} => 2KCl + O_{2}

 \bold{Gram\:mass\:of:}

2KClO_{3}

K = 39, Cl = 35.5, O = 16

 \bold{So,}

 = 2(39 + 35.5 + 48) \\

 = 2 \times 122.5 \\

 = 245

 \bold{This\:means\:that:-}

{245\:g} of potassium chlorate was used.

 \bold{Now,}

Mass of potassium chloride is:

 = 2(39 + 35.5) \\

 = 2 \times 74.5 \\

{=\:149\:g}

 \bold{Hence,}

{149\:g} of KCl is produced per {245\:g}.

\bold{And,}

{1\:g} is produced per  \frac{245}{149} g

 \bold{So,}

{35\:g} is produced per:

 = \frac{245}{149} \times 35 \\

{=\:57.55\:g}

 \bold{Therefore,}

The mass of potassium chlorate required to produce {35\:g} of potassium chloride on complete decomposition is  {57.55\:g.}
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