TATP (triacetone triperoxide)
1) Assuming the small stable product molecules are gaseous water, carbon dioxide, and nitrogen, write the balanced chemical equation that illustrates your explosives decomposition. On a clean sheet of paper, show the balanced chemical equation using the lewis structures for each reactant and product (one Lewis structure of each product with its stoichiometric coefficient is sufficient), include lone pairs of electrons where appropriate. Using hand drawn figures is acceptable. Use whole numbers for your stoichiometric coefficients, adding in oxygen as a reactant or product, as necessary, in the form of O2(g).
2) Calculate the volume of gas that your explosive would produce if 1 g of it was used. Assume standard temperature and pressure (STP) and any water produced is in the gaseous state.
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TATP (triacetone triperoxide) 1) Assuming the small stable product molecules are gaseous water, carbon dioxide, and...
TATP (triacetone triperoxide) 1) Assuming the small stable product molecules are gaseous water, carbon dioxide, and nitrogen, write the balanced chemical equation that illustrates your explosives decomposition. On a clean sheet of paper, show the balanced chemical equation using the lewis structures for each reactant and product (one Lewis structure of each product with its stoichiometric coefficient is sufficient), include lone pairs of electrons where appropriate. Using hand drawn figures is acceptable. Use whole numbers for your stoichiometric coefficients, adding...
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