To measure the amount of chlorine in a well-boring fluid, an analytical chemist adds 0.5000M silver nitrate (AgNO3) solution to a 47.00 g sample of the fluid and collects the solid silver chloride (AgCl) product. When no more AgCl is produced, she filters, washes and weighs it, and finds that 1.69 g has been produced. The balanced chemical equation for the reaction is: Cl(aq) + AgNO3(aq) 1 AgCl(s) + NO3(aq) 00 What kind of reaction is this? Oprecipitation O acid-base O redox If you said this was a precipitation reaction, enter the chemical formula of the precipitate. 0 If you said this was an acid-base reaction, enter the chemical formula of the reactant that is acting as the base. 0 If you said this was a redox reaction, enter the chemical symbol of the element that is oxidized. 0 Calculate the mass percent of Cl in the sample. Be sure your answer has 3 significant digits. 0% 7 X ?

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**Determining the Amount of Chlorine in Well-Boring Fluid**

To measure the amount of chlorine in a well-boring fluid, an analytical chemist adds \(0.5000 M\) silver nitrate (\(AgNO_3\)) solution to a \(47.00 g\) sample of the fluid and collects the solid silver chloride (\(AgCl\)) product. When no more \(AgCl\) is produced, she filters, washes, and weighs it, and finds that \(1.69 g\) has been produced.

The balanced chemical equation for the reaction is:
\[ \text{Cl}^- (aq) + \text{AgNO}_3 (aq) \rightarrow \text{AgCl} (s) + \text{NO}_3^- (aq) \]

**What kind of reaction is this?**

- **Precipitation**

If you said this was a **precipitation reaction**, enter the chemical formula of the precipitate:
\[ \_\_\_\_ \]

- **Acid-Base**

If you said this was an **acid-base reaction**, enter the chemical formula of the reactant that is acting as the base:
\[ \_\_\_\_ \]

- **Redox**

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 3 significant digits.**
\[ \_\_\_\_ \% \]
Transcribed Image Text:**Determining the Amount of Chlorine in Well-Boring Fluid** To measure the amount of chlorine in a well-boring fluid, an analytical chemist adds \(0.5000 M\) silver nitrate (\(AgNO_3\)) solution to a \(47.00 g\) sample of the fluid and collects the solid silver chloride (\(AgCl\)) product. When no more \(AgCl\) is produced, she filters, washes, and weighs it, and finds that \(1.69 g\) has been produced. The balanced chemical equation for the reaction is: \[ \text{Cl}^- (aq) + \text{AgNO}_3 (aq) \rightarrow \text{AgCl} (s) + \text{NO}_3^- (aq) \] **What kind of reaction is this?** - **Precipitation** If you said this was a **precipitation reaction**, enter the chemical formula of the precipitate: \[ \_\_\_\_ \] - **Acid-Base** If you said this was an **acid-base reaction**, enter the chemical formula of the reactant that is acting as the base: \[ \_\_\_\_ \] - **Redox** 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 3 significant digits.** \[ \_\_\_\_ \% \]
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