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Learning Intentions
You can determine how much of a product will be produced from a chemical reaction using stoichiometry and their index card.
You can test their predictions by performing the chemical reaction and collecting their product to compare to their calculated value.
You can complete volume Stoichiometry for liquids and gases using their index card as a resource.
You can use math equations to solve a volume Stoichiometry problem in real world.
Content Standards being covered:
Student can create mathematical representations of chemical
reactions and use them to make calculations about products and reactants.
156. Theoretical yield is the calculated or anticipated amount of product
expected at the end of a chemical reaction most often measured in grams
157. The actual yield, or experimental yield is the amount
of product produced in grams at the end of the real experiment
158. The percent yield of a reaction describes the amount of products created
(actual yield/ theoretical yield X 100)
173. The Molarity (M) of a solution is equal to the number of moles dissolved in
1 Liter of solution (#mol/1 L solution)
200. At standard room temperature and pressure (STP, 0°C and one atmosphere
pressure (atm)), the volume of one mole of any gas is 22.4 L
Habits of Mind/Life skills being covered:
Applying past knowledge to current situations
Journal Entry:
What is the volume of a mole of any gas at STP?