Unit 9 Day 1
CONTENT OBJECTIVE:
I can describe the postulates of kinetic molecular theory.
LANGUAGE OBJECTIVE:
I will be able to model the movement of gas particles through interpretive dance and contribute to class discussion as we work through several demonstrations that illustrate the kinetic molecular theory.
I can describe the postulates of kinetic molecular theory.
LANGUAGE OBJECTIVE:
I will be able to model the movement of gas particles through interpretive dance and contribute to class discussion as we work through several demonstrations that illustrate the kinetic molecular theory.
GUIDED PRACTICE
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GUIDED PRACTICE
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Unit 9 Day 2
CONTENT OBJECTIVE:
I can describe and calculate the relationships between volume, pressure, number of moles, and temperature for an ideal gas as described by Avogadro's Law, Boyle's Law, Charles's Law, Gay-Lussac's Law, the Combined Gas Law, and the Ideal Gas Law.
LANGUAGE OBJECTIVE:
I will be able to work collaboratively with a small group and the instructor to complete lab procedures and answer questions both orally and in written format in order to determine the relationships between the different variables in the gas laws.
I can describe and calculate the relationships between volume, pressure, number of moles, and temperature for an ideal gas as described by Avogadro's Law, Boyle's Law, Charles's Law, Gay-Lussac's Law, the Combined Gas Law, and the Ideal Gas Law.
LANGUAGE OBJECTIVE:
I will be able to work collaboratively with a small group and the instructor to complete lab procedures and answer questions both orally and in written format in order to determine the relationships between the different variables in the gas laws.
OTHER VIDS ARE
NOT REQUIRED Unit 9 Pages 14-17
Boyle's Law, Charles's Law, Gay-Lussac's Law, & Avogadro's Law NOTES Pages 14-17 (9:17) GUIDED PRACTICE |
Unit 9 Pages 14-17
Boyle's Law, Charles's Law, Gay-Lussac's Law, & Avogadro's Law NOTES Pages 14-17 (9:17) GUIDED PRACTICE
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HELPFUL LINKS:
Gizmos
Gas Laws Simulation
Gas Laws Experiment
Relationships of Variables in Gas Laws Animation
Collection of a Gas Over Water Animation
Gizmos
Gas Laws Simulation
Gas Laws Experiment
Relationships of Variables in Gas Laws Animation
Collection of a Gas Over Water Animation
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Unit 9 Day 3
CONTENT OBJECTIVE:
I can describe and calculate the relationships between volume, pressure, number of moles, and temperature for an ideal gas as described by Avogadro's Law, Boyle's Law, Charles's Law, Gay-Lussac's Law, the Combined Gas Law, and the Ideal Gas Law.
LANGUAGE OBJECTIVE:
I will be able to work collaboratively with a small group and the instructor to complete lab procedures and answer questions both orally and in written format in order to determine the relationships between the different variables in the gas laws.
I can describe and calculate the relationships between volume, pressure, number of moles, and temperature for an ideal gas as described by Avogadro's Law, Boyle's Law, Charles's Law, Gay-Lussac's Law, the Combined Gas Law, and the Ideal Gas Law.
LANGUAGE OBJECTIVE:
I will be able to work collaboratively with a small group and the instructor to complete lab procedures and answer questions both orally and in written format in order to determine the relationships between the different variables in the gas laws.
TOTAL TIME
(0:00) THERE ARE NO VIDEOS FOR THIS CLASS. |
Use the buttons below to submit data and work for the lab.
Boyle's Law: The Relationship between Pressure and Volume |
TOTAL TIME
(0:00) THERE ARE NO VIDEOS FOR THIS CLASS. |
HELPFUL LINKS:
Gas Laws Simulation
Gas Laws Experiment
Relationships of Variables in Gas Laws Animation
Gas Laws Simulation
Gas Laws Experiment
Relationships of Variables in Gas Laws Animation
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Unit 9 Day 4
CONTENT OBJECTIVE:
I can describe and calculate the partial pressure for an ideal gas as described by Dalton's Law of Partial Pressures.
LANGUAGE OBJECTIVE:
I will be able to work collaboratively with a small group and the instructor to complete lab procedures and to answer questions both orally and in written format about the gas laws in order to determine the molar mass of butane.
I can describe and calculate the partial pressure for an ideal gas as described by Dalton's Law of Partial Pressures.
LANGUAGE OBJECTIVE:
I will be able to work collaboratively with a small group and the instructor to complete lab procedures and to answer questions both orally and in written format about the gas laws in order to determine the molar mass of butane.
TOTAL TIME
(6:50) Unit 9 Pages 22-24 Dalton's Law of Partial Pressures & Collecting Gases in the Lab NOTES Pages 22-24 (4:57) GUIDED PRACTICE |
TOTAL TIME
(6:50) Unit 9 Pages 22-24 Dalton's Law of Partial Pressures & Collecting Gases in the Lab NOTES Pages 22-24 (4:57) GUIDED PRACTICE |
HELPFUL LINKS:
Gas Laws Simulation
Relationships of Variables in Gas Laws Animation
Collection of a Gas Over Water Animation
Gas Laws Simulation
Relationships of Variables in Gas Laws Animation
Collection of a Gas Over Water Animation
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Unit 9 Day 5
CONTENT OBJECTIVE:
I can perform stoichiometric calculations, including determination of mass and volume relationships between reactants and products for reactions involving gases.
LANGUAGE OBJECTIVE:
I will be able to work collaboratively with a partner to read and complete lab procedures in order to determine the optimum ratio of hydrogen to oxygen in a combustion reaction and record this data in written and graphic format.
I can perform stoichiometric calculations, including determination of mass and volume relationships between reactants and products for reactions involving gases.
LANGUAGE OBJECTIVE:
I will be able to work collaboratively with a partner to read and complete lab procedures in order to determine the optimum ratio of hydrogen to oxygen in a combustion reaction and record this data in written and graphic format.
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Unit 9 Day 6
CONTENT OBJECTIVE:
I can explain how kinetic molecular theory and the particulate nature of gases allows us to predict the behavior of gases and to determine the relationships among pressure, temperature, volume, and the number of particles.
LANGUAGE OBJECTIVE:
I will be able to self-assess my understanding of the unit content objectives using an online learning tool in order to determine my level of preparation for the summative assessment.
I can explain how kinetic molecular theory and the particulate nature of gases allows us to predict the behavior of gases and to determine the relationships among pressure, temperature, volume, and the number of particles.
LANGUAGE OBJECTIVE:
I will be able to self-assess my understanding of the unit content objectives using an online learning tool in order to determine my level of preparation for the summative assessment.
TOTAL TIME
(18:36) Unit 9 Pages 35-38 FR Practice GUIDED PRACTICE |
TOTAL TIME
(18:36) Unit 9 Pages 35-38 FR Practice GUIDED PRACTICE |
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Unit 9 Day 7
CONTENT OBJECTIVE:
I can demonstrate mastery of unit objectives by correctly answering at least 80% of multiple choice and free response questions on a written assessment.
I can demonstrate mastery of unit objectives by correctly answering at least 80% of multiple choice and free response questions on a written assessment.