Stoichiometry is used in formulating airbags that shows relationship between product and reactants.
The quick chemical decomposition of solid sodium azide (NaN3) that allows the air bag to inflate fast at any time when the car hit anything. The decomposition reaction is initiated in a car by a small ignition that occurs due to collision sensing mechanism. The nitrogen gas produced during the reaction inflates the air bag which protect the person in the car.
So we can conclude that Stoichiometry is used in formulating airbags that shows relationship between product and reactants.
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Stoichiometry is important in formulating airbags, producing contrails, or formulating rocket engines so as to ensure the required amount of products are formed.
Stoichiometry is the molar relationship between the reactants and products of a reaction.
It is the ratio in which moles of reactants of a reaction combine to form moles of products.
Stoichiometry is important in determining the amount of reactants required to produce a given amount of products.
For example, stoichiometry is important in formulating airbags, producing contrails, or formulating rocket engines in order to ensure the mass of reactants used is enough to produce the required products.
In conclusion, stoichiometry of a reaction provides the knowledge about the amount of reactants required to form products.
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