ICE part 1,2,3 please. Tysm **Solution**First, we will set up an equilibrium table. It is important to understand how to set up this table, because we will use this throughout the course.**Steps to set up an equilibrium table:**1) **Set up table format; it is always the same.**\[ \text{H}_2\text{O}_{(g)} \rightleftharpoons \text{H}_2\text{(g)} + \text{CO}_{(g)} \]| | Initial (I) | Change (C) | Equilibrium (E) ||------------------|-------------|------------|-----------------|| H₂O(g) | | | || H₂(g) | | | || CO(g) | | | |2) **Fill in the initial concentrations from the given information in the problem.**| | Initial (I) | Change (C) | Equilibrium (E) ||------------------|-------------|------------|-----------------|| H₂O(g) | 1M | | || H₂(g) | 0 | | || CO(g) | 0 | | |3) **To determine the change, you subtract 'x,' multiplied by the stoichiometric coefficient from the zero concentrations, and add 'x,' multiplied by the stoichiometric coefficients to the zero concentrations. This is the procedure to use only when we have zero concentrations of products or reactants.**\[ \text{H}_2\text{O}_{(g)} \rightleftharpoons \text{H}_2\text{(g)} + \text{CO}_{(g)} \]| | Initial (I) | Change (C) | Equilibrium (E) ||------------------|-------------|------------|-----------------|| H₂O(g) | 1M | -x | 1M - x || H₂(g) | 0 | +x | x || CO(g) | 0 | +x | x |

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H2(g) + CO2(g) H₂O(g) + CO(g) Solution First we will set up an equilibrium table. It is important to understand how to set up this table, because we will use this throughout the course. Steps to set up an equilibrium table. 1) Set up table format, it is always the same. Initial (1) Change (C) Equilibrium (E) Initial (I) Change (C) Equilibrium (E) H2(g) + CO2(g) 2) Fill in the initial concentrations from the given information in the problem. H2(g) + Ş 1M Initial (I) Change (C) Equilibrium (E) H2(g) + 1M CO2(g) IM -X 3) To determine the change, you subtract "x" multiplied by the stoichiometric coefficient from the non-zero concentrations, and add "x" multiplied by the stoichiometric coefficients to the zero concentrations. This is the procedure to use only when we have zero concentrations of products or reactants. ↓↑ CO2(g) IM H₂O(g) + CO(g) -X H₂O(g) + CO(g) 0 0 H₂O(g) + CO(g) 0 0 +x + X

H2(g) + CO2(g) H₂O(g) + CO(g) Solution First we will set up an equilibrium table. It is important to understand how to set up this table, because we will use this throughout the course. Steps to set up an equilibrium table. 1) Set up table format, it is always the same. Initial (1) Change (C) Equilibrium (E) Initial (I) Change (C) Equilibrium (E) H2(g) + CO2(g) 2) Fill in the initial concentrations from the given information in the problem. H2(g) + Ş 1M Initial (I) Change (C) Equilibrium (E) H2(g) + 1M CO2(g) IM -X 3) To determine the change, you subtract "x" multiplied by the stoichiometric coefficient from the non-zero concentrations, and add "x" multiplied by the stoichiometric coefficients to the zero concentrations. This is the procedure to use only when we have zero concentrations of products or reactants. ↓↑ CO2(g) IM H₂O(g) + CO(g) -X H₂O(g) + CO(g) 0 0 H₂O(g) + CO(g) 0 0 +x + X

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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