**Chemical Reactions and Theoretical Yield Calculations** **44. Reaction between Titanium and Fluorine Gas:** Calculate the theoretical yield of the product (in grams) for each initial amount of reactants using the following balanced equation: \[ \text{Ti(s)} + 2\text{F}_2\text{(g)} \rightarrow \text{TiF}_4\text{(s)} \] a. 5.0 g Ti, 5.0 g F\(_2\) b. 2.4 g Ti, 1.6 g F\(_2\) c. 0.233 g Ti, 0.288 g F\(_2\) **45. Reaction of Iron(III) Oxide with Carbon Monoxide:** Iron(III) oxide reacts with carbon monoxide according to the equation: \[ \text{Fe}_2\text{O}_3\text{(s)} + 3\text{CO(g)} \rightarrow 2\text{Fe(s)} + 3\text{CO}_2\text{(g)} \] A reaction mixture initially contains 22.55 g Fe\(_2\)O\(_3\) and 14.78 g CO. Determine the mass (in g) of the excess reactant remaining after the reaction has gone to completion. _**MISSED THIS?** Read Section 4.4; Watch KCV 4.4, IWE 4.6_ **46. Reaction of Elemental Phosphorus with Chlorine Gas:** Elemental phosphorus reacts with chlorine gas according to the equation: \[ \text{P}_4\text{(s)} + 6\text{Cl}_2\text{(g)} \rightarrow 4\text{PCl}_3\text{(l)} \] A reaction mixture initially contains 45.69 g P\(_4\) and 131.3 g Cl\(_2\). Calculate the mass (in g) of the excess reactant remaining after the reaction has completed. **47. Precipitation of Lead Ions with KCl:** Lead ions can be precipitated from solution with KCl according to the reaction: \[ \text{Pb}^{2+}\text
**Chemical Reactions and Theoretical Yield Calculations** **44. Reaction between Titanium and Fluorine Gas:** Calculate the theoretical yield of the product (in grams) for each initial amount of reactants using the following balanced equation: \[ \text{Ti(s)} + 2\text{F}_2\text{(g)} \rightarrow \text{TiF}_4\text{(s)} \] a. 5.0 g Ti, 5.0 g F\(_2\) b. 2.4 g Ti, 1.6 g F\(_2\) c. 0.233 g Ti, 0.288 g F\(_2\) **45. Reaction of Iron(III) Oxide with Carbon Monoxide:** Iron(III) oxide reacts with carbon monoxide according to the equation: \[ \text{Fe}_2\text{O}_3\text{(s)} + 3\text{CO(g)} \rightarrow 2\text{Fe(s)} + 3\text{CO}_2\text{(g)} \] A reaction mixture initially contains 22.55 g Fe\(_2\)O\(_3\) and 14.78 g CO. Determine the mass (in g) of the excess reactant remaining after the reaction has gone to completion. _**MISSED THIS?** Read Section 4.4; Watch KCV 4.4, IWE 4.6_ **46. Reaction of Elemental Phosphorus with Chlorine Gas:** Elemental phosphorus reacts with chlorine gas according to the equation: \[ \text{P}_4\text{(s)} + 6\text{Cl}_2\text{(g)} \rightarrow 4\text{PCl}_3\text{(l)} \] A reaction mixture initially contains 45.69 g P\(_4\) and 131.3 g Cl\(_2\). Calculate the mass (in g) of the excess reactant remaining after the reaction has completed. **47. Precipitation of Lead Ions with KCl:** Lead ions can be precipitated from solution with KCl according to the reaction: \[ \text{Pb}^{2+}\text
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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![**Chemical Reactions and Theoretical Yield Calculations**
**44. Reaction between Titanium and Fluorine Gas:**
Calculate the theoretical yield of the product (in grams) for each initial amount of reactants using the following balanced equation:
\[
\text{Ti(s)} + 2\text{F}_2\text{(g)} \rightarrow \text{TiF}_4\text{(s)}
\]
a. 5.0 g Ti, 5.0 g F\(_2\)
b. 2.4 g Ti, 1.6 g F\(_2\)
c. 0.233 g Ti, 0.288 g F\(_2\)
**45. Reaction of Iron(III) Oxide with Carbon Monoxide:**
Iron(III) oxide reacts with carbon monoxide according to the equation:
\[
\text{Fe}_2\text{O}_3\text{(s)} + 3\text{CO(g)} \rightarrow 2\text{Fe(s)} + 3\text{CO}_2\text{(g)}
\]
A reaction mixture initially contains 22.55 g Fe\(_2\)O\(_3\) and 14.78 g CO. Determine the mass (in g) of the excess reactant remaining after the reaction has gone to completion.
_**MISSED THIS?** Read Section 4.4; Watch KCV 4.4, IWE 4.6_
**46. Reaction of Elemental Phosphorus with Chlorine Gas:**
Elemental phosphorus reacts with chlorine gas according to the equation:
\[
\text{P}_4\text{(s)} + 6\text{Cl}_2\text{(g)} \rightarrow 4\text{PCl}_3\text{(l)}
\]
A reaction mixture initially contains 45.69 g P\(_4\) and 131.3 g Cl\(_2\). Calculate the mass (in g) of the excess reactant remaining after the reaction has completed.
**47. Precipitation of Lead Ions with KCl:**
Lead ions can be precipitated from solution with KCl according to the reaction:
\[
\text{Pb}^{2+}\text](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F7cb7ab84-2909-44b4-aa38-afda86b9d9a5%2Fe43c1f28-741d-497e-b2c0-84f40010c4bd%2Fwelbggl.jpeg&w=3840&q=75)
Transcribed Image Text:**Chemical Reactions and Theoretical Yield Calculations**
**44. Reaction between Titanium and Fluorine Gas:**
Calculate the theoretical yield of the product (in grams) for each initial amount of reactants using the following balanced equation:
\[
\text{Ti(s)} + 2\text{F}_2\text{(g)} \rightarrow \text{TiF}_4\text{(s)}
\]
a. 5.0 g Ti, 5.0 g F\(_2\)
b. 2.4 g Ti, 1.6 g F\(_2\)
c. 0.233 g Ti, 0.288 g F\(_2\)
**45. Reaction of Iron(III) Oxide with Carbon Monoxide:**
Iron(III) oxide reacts with carbon monoxide according to the equation:
\[
\text{Fe}_2\text{O}_3\text{(s)} + 3\text{CO(g)} \rightarrow 2\text{Fe(s)} + 3\text{CO}_2\text{(g)}
\]
A reaction mixture initially contains 22.55 g Fe\(_2\)O\(_3\) and 14.78 g CO. Determine the mass (in g) of the excess reactant remaining after the reaction has gone to completion.
_**MISSED THIS?** Read Section 4.4; Watch KCV 4.4, IWE 4.6_
**46. Reaction of Elemental Phosphorus with Chlorine Gas:**
Elemental phosphorus reacts with chlorine gas according to the equation:
\[
\text{P}_4\text{(s)} + 6\text{Cl}_2\text{(g)} \rightarrow 4\text{PCl}_3\text{(l)}
\]
A reaction mixture initially contains 45.69 g P\(_4\) and 131.3 g Cl\(_2\). Calculate the mass (in g) of the excess reactant remaining after the reaction has completed.
**47. Precipitation of Lead Ions with KCl:**
Lead ions can be precipitated from solution with KCl according to the reaction:
\[
\text{Pb}^{2+}\text
Expert Solution
Step 1
The given reaction is ,
Fe2O3 (s) + 3 CO (g) ----> 2 Fe (s) + 3 CO2 (g)
Clearly , from the above reaction, 1 mole of Fe2O3 reacts with 3 moles of CO.
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