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Chapter WOC 9. Stoichiometry !. Mole. Mole. TO. Problems. Write the equation that describes the reaction. Balance the equation. The coefficients are mole-to-mole ratios. Determine what is given and what is needed.
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Chapter WOC 9 Stoichiometry!
Mole Mole TO Problems • Write the equation that describes the reaction. • Balance the equation. • The coefficients are mole-to-mole ratios. Determine what is given and what is needed. • Put the given and needed moles in boxes and draw the “mole bridge” between the boxes. • Mark the bridge with the coefficients. • Divide then multiply to find the unknown number of moles.
Now that you have mastered mole to mole problems, let’s try something more complicated. You can use your mole skills to solve many types of problems! • Mole to Mole • Mole to Mass • Mass to Mass • Mass to Volume • Volume to Volume • Volume to Mole • Blah blah blah!
No matter which type of problem you need to solve, the four box method will help organize information. Known Unknown ÷ divide X multiply ÷ divide: x multiply Moles known Moles unknown Remember… Divide to dig down to Mr. Mole Go across the mole bridge Climb back up by multiplying
What mass of carbon dioxide is produced when 50.0 grams of butane (C4H10) is burned in excess oxygen gas? Step 1 Write balanced equation. 2 C4H10 + 13 O2 → 8 CO2 + 10 H2 O 50.0 g C4H10 ____ g CO2 152 ÷ 58.0 g/mol x 44.0 g/mol ÷ 2 : x 8 .8621 molC4H10 3.4483 molCO2 Step 2 Place boxes for given and desired amounts under appropriate chemicals. Step 3 Draw an arrow from given amount down to moles box. Convert to moles by dividing by molar mass. On this chart all down arrows require divide . Dig down to Mr. Mole. Step 4 Draw mole bridge from known moles to unknown moles box. Place coefficients of known and unknown on bridge. Divide by known and multiply by unknown to find unknown moles. Step 5 Convert to moles of unknown by multiplying by molar mass of unknown.