To determine the stoichiometric ratios of reactants and products for a chemical reaction in an excited state of a molecule, we need to consider the changes in bond lengths and angles that occur during the reaction. However, without knowing the specific reaction, it is impossible to provide an exact answer. The stoichiometric ratios can vary depending on the reaction mechanism and reactant concentrations.

In general, the stoichiometric ratios can be determined by balancing the chemical equation for the reaction. This involves ensuring that the number of atoms of each element is the same on both sides of the equation.

For example, consider the reaction A + B → C. In the excited state, let's assume that there is a change in bond length and angle, resulting in new stoichiometric ratios. We can represent this as A* + B* → C*.

To calculate the stoichiometric ratios, we would need to know the specific changes in bond lengths and angles, as well as the energy required for these changes. Depending on the nature of the reaction, it might involve the breaking or formation of bonds, or rearrangement of atoms.

If you can provide more specific details about the reaction and the changes in bond lengths and angles, I can help you further with the stoichiometric ratios.

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