How can the coefficients in a chemical equation be interpreted? A balanced chemical equation can tell us the number of reactant and product particles (ions, atoms, molecules or formula units) that are necessary to conserve mass during a chemical reaction. Typically when we balance the chemical equation we think in terms of individual particles. However, in real life the reaction represented by an equation occurs an unimaginable number of times. Short of writing very large numbers (10 or larger) in front of each chemical in the equation, how can we interpret chemical equations so that they more realistically represent what is happening in real life? In this packet you will explore the different ways a chemical reaction can be interpreted. N₂(g) + 3H₂(g) → 2NH³(g) Model 1:

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How can the coefficients in a chemical equation be interpreted? A balanced chemical equation can tell us the number of reactant and product particles (ions, atoms, molecules or formula units) that are necessary to conserve mass during a chemical reaction. Typically when we balance the chemical equation we think in terms of individual particles. However, in real life the reaction represented by an equation occurs an unimaginable number of times. Short of writing very large numbers (10 or larger) in front of each chemical in the equation, how can we interpret chemical equations so that they more realistically represent what is happening in real life? In this packet you will explore the different ways a chemical reaction can be interpreted. N₂(g) + 3H₂(g) 2NH3(g) Model 1: