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Science Chemistry CHEMISTRY: THE MOLECULAR NATURE OF MATTE

The equilibrium partial pressure of H 2 S should be calculated for the decomposition of hydrogen sulfide if the K c of reaction is 2 .25 × 10 -4 at 1130 ° C and P H 2 = 0 .370 atm , P S 2 = 0 .185 atm . Concept Introduction : K p or Kc are the equilibrium constants for the reaction which are ratio of gaseous and aqueous products and reactant molecules. A + B ⇌ C + D K = K c = [ a C ] [ a D ] [ a A ] [ a B ] K = K p = [ P C ] [ P D ] [ P A ] [ P B ] Here ‘a’ represent the active mass and ‘P’ represents the partial pressure.

The equilibrium partial pressure of H 2 S should be calculated for the decomposition of hydrogen sulfide if the K c of reaction is 2 .25 × 10 -4 at 1130 ° C and P H 2 = 0 .370 atm , P S 2 = 0 .185 atm . Concept Introduction : K p or Kc are the equilibrium constants for the reaction which are ratio of gaseous and aqueous products and reactant molecules. A + B ⇌ C + D K = K c = [ a C ] [ a D ] [ a A ] [ a B ] K = K p = [ P C ] [ P D ] [ P A ] [ P B ] Here ‘a’ represent the active mass and ‘P’ represents the partial pressure.

Solution Summary: The author explains that the equilibrium partial pressure of H_Text2S should be calculated for the decomposition of hydrogen sulfide.

CHEMISTRY: THE MOLECULAR NATURE OF MATTE

CHEMISTRY: THE MOLECULAR NATURE OF MATTE

9th Edition

ISBN: 9781265974688

Author: SILBERBERG

Publisher: MCG

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Chapter 17.5, Problem 17.7AFP

Interpretation Introduction

Interpretation : The equilibrium partial pressure of H2S should be calculated for the decomposition of hydrogen sulfide if the Kc of reaction is 2.25  × 10-4 at 1130 °C and PH2 = 0.370 atm , PS2 = 0.185 atm .

Concept Introduction : Kp or Kc are the equilibrium constants for the reaction which are ratio of gaseous and aqueous products and reactant molecules.

A + B ⇌C + D

K  = Kc = [aC] [aD][aA] [aB]

K  = Kp = [PC] [PD][PA] [PB]

Here ‘a’ represent the active mass and ‘P’ represents the partial pressure.

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Chapter 17.5, Problem 17.6BFP

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Chapter 17 Solutions

CHEMISTRY: THE MOLECULAR NATURE OF MATTE

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