Understanding mass conservation in chemical reactions is important. Here’s a simpler way to look at it:
Reactants and Products: The total mass of the reactants is the same as the total mass of the products.
For example, if you start with 5 grams of propane (a type of fuel), you will end up with 5 grams of products after it burns.
Stoichiometric Ratios: When we look at balanced equations, the numbers in front of the chemicals are called coefficients.
They help us predict what will happen in the reaction.
For instance, in the equation (C_3H_8 + 5O_2 \rightarrow 3CO_2 + 4H_2O), the mass stays the same during the reaction.
Practical Applications: In factories, calculating mass accurately means more product and less waste.
This is great for the environment and helps make our planet healthier.
Understanding mass conservation in chemical reactions is important. Here’s a simpler way to look at it:
Reactants and Products: The total mass of the reactants is the same as the total mass of the products.
For example, if you start with 5 grams of propane (a type of fuel), you will end up with 5 grams of products after it burns.
Stoichiometric Ratios: When we look at balanced equations, the numbers in front of the chemicals are called coefficients.
They help us predict what will happen in the reaction.
For instance, in the equation (C_3H_8 + 5O_2 \rightarrow 3CO_2 + 4H_2O), the mass stays the same during the reaction.
Practical Applications: In factories, calculating mass accurately means more product and less waste.
This is great for the environment and helps make our planet healthier.