1 / 2
0
Views
0
Downloads
0.0
0
Save
0 Likes
Worksheet on Stoichiometry for Chemistry Students
0 Views
0 Downloads
Paste this activity's link or code into your existing LMS (Google Classroom, Canvas, Teams, Schoology, Moodle, etc.).
Students can open and work on the activity right away, with no student login required.
You'll still be able to track student progress and results from your teacher account.
Information
Description
What It Is:
This is a stoichiometry worksheet with three main questions. The first question asks students to convert moles of ammonium chloride and lead (II) oxide into grams. The second question provides a reaction between lead (II) nitrate and potassium iodide and requires students to write a balanced equation and then perform stoichiometric calculations to find the mass of lead (II) iodide produced from different amounts of potassium iodide. The third question involves the combustion of propane, asking students to write and balance the equation and then calculate the volume of carbon dioxide produced from a given mass of propane, the mass of propane burned to produce a given volume of steam, and the moles of steam produced from a given mass of propane.
Grade Level Suitability:
This worksheet is suitable for high school students, specifically grades 11-12, or introductory college chemistry courses. The calculations and concepts covered, such as mole conversions, balancing equations, and stoichiometry, are typically taught at this level.
Why Use It:
This worksheet provides practice in applying stoichiometric principles. It reinforces the concepts of mole-to-mass conversions, balancing chemical equations, and using balanced equations to calculate the amounts of reactants and products in a chemical reaction. It also includes application of the ideal gas law by including STP conditions.
How to Use It:
Students should first review the concepts of stoichiometry, mole conversions, and balancing chemical equations. They should then work through each problem step-by-step, showing their work. For question 2, they need to write the correct formulas and balance the equation before doing any calculations. For question 3, they must correctly write and balance the combustion equation for propane.
Target Users:
The target users are high school chemistry students or introductory college chemistry students who are learning about stoichiometry and need practice applying these concepts. It is useful for students preparing for quizzes or exams on stoichiometry.
This is a stoichiometry worksheet with three main questions. The first question asks students to convert moles of ammonium chloride and lead (II) oxide into grams. The second question provides a reaction between lead (II) nitrate and potassium iodide and requires students to write a balanced equation and then perform stoichiometric calculations to find the mass of lead (II) iodide produced from different amounts of potassium iodide. The third question involves the combustion of propane, asking students to write and balance the equation and then calculate the volume of carbon dioxide produced from a given mass of propane, the mass of propane burned to produce a given volume of steam, and the moles of steam produced from a given mass of propane.
Grade Level Suitability:
This worksheet is suitable for high school students, specifically grades 11-12, or introductory college chemistry courses. The calculations and concepts covered, such as mole conversions, balancing equations, and stoichiometry, are typically taught at this level.
Why Use It:
This worksheet provides practice in applying stoichiometric principles. It reinforces the concepts of mole-to-mass conversions, balancing chemical equations, and using balanced equations to calculate the amounts of reactants and products in a chemical reaction. It also includes application of the ideal gas law by including STP conditions.
How to Use It:
Students should first review the concepts of stoichiometry, mole conversions, and balancing chemical equations. They should then work through each problem step-by-step, showing their work. For question 2, they need to write the correct formulas and balance the equation before doing any calculations. For question 3, they must correctly write and balance the combustion equation for propane.
Target Users:
The target users are high school chemistry students or introductory college chemistry students who are learning about stoichiometry and need practice applying these concepts. It is useful for students preparing for quizzes or exams on stoichiometry.
