To measure the amount of chlorine in a well-boring fluid, an analytical chemist adds 0.130M silver nitrate (AgNO3) solution to a 35.0 g sample of the fluid and collects the solid silver chloride (AgCl) product. When no more AgCl is produced, he filters, washes and weighs it, and finds that 1.3 g has been produced. The balanced chemical equation for the reaction is: Cl(aq) + AgNO3(aq) → AgCl(s) + NO3(aq) 09 0 precipitation acid-base What kind of reaction is this? X S ? If you said this was a precipitation reaction, enter the chemical formula of the precipitate. If you said this was an acid-base reaction, enter the chemical formula of the reactant that is acting as the base. If you said this was a redox reaction, enter the chemical symbol of the element that is oxidized. Calculate the mass percent of CI in the sample. Be sure your answer has 2 significant digits. O redox 0 0 10 2⁰ 8

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To measure the amount of chlorine in a well-boring fluid, an analytical chemist adds 0.130M silver nitrate (AgNO3) solution to a 35.0 g sample of the fluid and collects the solid silver chloride (AgCl) product. When no more AgCl is produced, he filters, washes and weighs it, and finds that 1.3 g has been produced. The balanced chemical equation for the reaction is: Cl(aq) + AgNO3(aq) → AgCl(s) + AgCl(s) + NO3(aq) E Oprecipitation 10 What kind of reaction is this? O acid-base O redox Ś ? If you said this was a precipitation reaction, enter the chemical formula of the precipitate. 10 If you said this was an acid-base reaction, enter the chemical formula of the reactant that is acting as the base. 0 0 If you said this was a redox reaction, enter the chemical symbol of the element that is oxidized. Calculate the mass percent of Cl in the sample. Be sure your answer has 2 significant digits. % X Ar K Im