3. When an antacid tablet dissolves in water, the fizz is due to a reaction between sodium hydrogen carbonate (NAHCO:), also called sodium bicarbonate, and citric acid (H;C&H$O7). ZNAHCO) + H3C&HsO%@«) → 3CO2G+ 3H2O@+Na3CsH;O7aq) How many moles of Na3CsHsO7 can be produced if one tablet containing 0.0119 mol of NaHCO3 is dissolveď?

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3. When an antacid tablet dissolves in water, the fizz is due to a reaction between sodium
hydrogen carbonate (NaHCO3), also called sodium bicarbonate, and citric acid (H3C6HSO7).
NAHCO3 + H;CH$O7(a) → 3CO2@) + 3H2O@ + Na3CsH;O7(a9)
How many moles of Na3CsHsO7 can be produced if one tablet containing 0.0119 mol of
NAHCO3 is dissolved?
Transcribed Image Text:3. When an antacid tablet dissolves in water, the fizz is due to a reaction between sodium hydrogen carbonate (NaHCO3), also called sodium bicarbonate, and citric acid (H3C6HSO7). NAHCO3 + H;CH$O7(a) → 3CO2@) + 3H2O@ + Na3CsH;O7(a9) How many moles of Na3CsHsO7 can be produced if one tablet containing 0.0119 mol of NAHCO3 is dissolved?
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