3. Kl(aq) + H2O(1) 18.02 g/mol + KOH(aq) + KMNO4(aq) 158.03 g/mol 12(s) 253.80 g/mol MnO2(s) 86.97 g/mol 56.11 g/mol 166.0 /mol Calculate the mass of manganese (IV) oxide that can be synthesized from...

3. Kl(aq) +<br>H2O(1)<br>18.02 g/mol<br>+ KOH(aq)<br>+ KMNO4(aq)<br>158.03 g/mol<br>12(s)<br>253.80 g/mol<br>MnO2(s)<br>86.97 g/mol 56.11 g/mol<br>166.0 /mol<br>Calculate the mass of manganese (IV) oxide that can be synthesized from<br>15.00 grams of potassium iodide.<br>b. Calculate the percent yield of this experiment if a mass of 1.982 grams of<br>manganese (IV) oxide is produced.<br>C. Determine the percent error.<br>a.<br>badke<br>d. Compute for the excess amount of the excess reactant.<br>

Extracted text: 3. Kl(aq) + H2O(1) 18.02 g/mol + KOH(aq) + KMNO4(aq) 158.03 g/mol 12(s) 253.80 g/mol MnO2(s) 86.97 g/mol 56.11 g/mol 166.0 /mol Calculate the mass of manganese (IV) oxide that can be synthesized from 15.00 grams of potassium iodide. b. Calculate the percent yield of this experiment if a mass of 1.982 grams of manganese (IV) oxide is produced. C. Determine the percent error. a. badke d. Compute for the excess amount of the excess reactant.

Jun 09, 2022

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3. Kl(aq) + H2O(1) 18.02 g/mol + KOH(aq) + KMNO4(aq) 158.03 g/mol 12(s) 253.80 g/mol MnO2(s) 86.97 g/mol 56.11 g/mol 166.0 /mol Calculate the mass of manganese (IV) oxide that can be synthesized from...

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