### Construct the Expression \( K_p \) for the Following Reaction #### Reaction: \[ 2 \text{SCl}_2(g) + \text{O}_2(g) \rightleftharpoons 2 \text{SOCl}_2(g) \] Use the provided tiles to fill in the expression for \( K_p \) by placing them in the numerator or denominator. #### Expression: \[ K_p = \frac{\text{(numerator)}}{\text{(denominator)}} \] #### Options for Tiles: - \( P_{\text{SCl}_2} \) - \( P_{\text{O}_2} \) - \( P_{\text{SOCl}_2} \) - \( 2(P_{\text{SCl}_2}) \) - \( 2(P_{\text{O}_2}) \) - \( 2(P_{\text{SOCl}_2}) \) - \( (P_{\text{SCl}_2})^2 \) - \( 2(P_{\text{SCl}_2})^2 \) - \( 2(P_{\text{O}_2})^2 \) - \( 2(P_{\text{SOCl}_2})^2 \) - \( (P_{\text{O}_2})^2 \) #### Tools: - **Reset Button:** Click to clear your selections and start over. ### Instructions Drag and drop the appropriate pressure terms into the numerator or denominator to complete the expression for the equilibrium constant \( K_p \). This represents the relation of the partial pressures of the gases involved in the equilibrium reaction.
### Construct the Expression \( K_p \) for the Following Reaction #### Reaction: \[ 2 \text{SCl}_2(g) + \text{O}_2(g) \rightleftharpoons 2 \text{SOCl}_2(g) \] Use the provided tiles to fill in the expression for \( K_p \) by placing them in the numerator or denominator. #### Expression: \[ K_p = \frac{\text{(numerator)}}{\text{(denominator)}} \] #### Options for Tiles: - \( P_{\text{SCl}_2} \) - \( P_{\text{O}_2} \) - \( P_{\text{SOCl}_2} \) - \( 2(P_{\text{SCl}_2}) \) - \( 2(P_{\text{O}_2}) \) - \( 2(P_{\text{SOCl}_2}) \) - \( (P_{\text{SCl}_2})^2 \) - \( 2(P_{\text{SCl}_2})^2 \) - \( 2(P_{\text{O}_2})^2 \) - \( 2(P_{\text{SOCl}_2})^2 \) - \( (P_{\text{O}_2})^2 \) #### Tools: - **Reset Button:** Click to clear your selections and start over. ### Instructions Drag and drop the appropriate pressure terms into the numerator or denominator to complete the expression for the equilibrium constant \( K_p \). This represents the relation of the partial pressures of the gases involved in the equilibrium reaction.
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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![### Construct the Expression \( K_p \) for the Following Reaction
#### Reaction:
\[ 2 \text{SCl}_2(g) + \text{O}_2(g) \rightleftharpoons 2 \text{SOCl}_2(g) \]
Use the provided tiles to fill in the expression for \( K_p \) by placing them in the numerator or denominator.
#### Expression:
\[ K_p = \frac{\text{(numerator)}}{\text{(denominator)}} \]
#### Options for Tiles:
- \( P_{\text{SCl}_2} \)
- \( P_{\text{O}_2} \)
- \( P_{\text{SOCl}_2} \)
- \( 2(P_{\text{SCl}_2}) \)
- \( 2(P_{\text{O}_2}) \)
- \( 2(P_{\text{SOCl}_2}) \)
- \( (P_{\text{SCl}_2})^2 \)
- \( 2(P_{\text{SCl}_2})^2 \)
- \( 2(P_{\text{O}_2})^2 \)
- \( 2(P_{\text{SOCl}_2})^2 \)
- \( (P_{\text{O}_2})^2 \)
#### Tools:
- **Reset Button:** Click to clear your selections and start over.
### Instructions
Drag and drop the appropriate pressure terms into the numerator or denominator to complete the expression for the equilibrium constant \( K_p \). This represents the relation of the partial pressures of the gases involved in the equilibrium reaction.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F899fb828-393b-407f-a327-7733d20ede86%2F6a80be1a-821f-43f9-aeaf-5c76a825d3e5%2F7oar3h_processed.png&w=3840&q=75)
Transcribed Image Text:### Construct the Expression \( K_p \) for the Following Reaction
#### Reaction:
\[ 2 \text{SCl}_2(g) + \text{O}_2(g) \rightleftharpoons 2 \text{SOCl}_2(g) \]
Use the provided tiles to fill in the expression for \( K_p \) by placing them in the numerator or denominator.
#### Expression:
\[ K_p = \frac{\text{(numerator)}}{\text{(denominator)}} \]
#### Options for Tiles:
- \( P_{\text{SCl}_2} \)
- \( P_{\text{O}_2} \)
- \( P_{\text{SOCl}_2} \)
- \( 2(P_{\text{SCl}_2}) \)
- \( 2(P_{\text{O}_2}) \)
- \( 2(P_{\text{SOCl}_2}) \)
- \( (P_{\text{SCl}_2})^2 \)
- \( 2(P_{\text{SCl}_2})^2 \)
- \( 2(P_{\text{O}_2})^2 \)
- \( 2(P_{\text{SOCl}_2})^2 \)
- \( (P_{\text{O}_2})^2 \)
#### Tools:
- **Reset Button:** Click to clear your selections and start over.
### Instructions
Drag and drop the appropriate pressure terms into the numerator or denominator to complete the expression for the equilibrium constant \( K_p \). This represents the relation of the partial pressures of the gases involved in the equilibrium reaction.
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