Unit 5: Kinetics

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  • Access is an AACT member benefit. Lesson Plan: Making Connections in Kinetics, Equilibrium and Thermochemistry Mark as Favorite (31 Favorites)

    In this lesson students will understand the connections between the equilibrium constant (K) and the reaction quotient (Q) as well as how they determine the favorability of a reaction. Additionally students will be able to determine if a reaction is kinetically favored or thermodynamically favored.

  • Access is an AACT member benefit. Lesson Plan: Reaction Mechanisms Mark as Favorite (46 Favorites)

    In this lesson students explore reaction mechanisms and their connection to rate laws and energy profile graphs through a game, relay race, and finally a chemical demonstration.

  • Access is an AACT member benefit. Lab: Starch-Iodine Clock Reaction Mark as Favorite (71 Favorites)

    In this lab, students perform an iodine clock reaction to determine how concentration and temperature effect the reaction rate.

  • Access is an AACT member benefit. Lab: Kinetics and Equilibrium Mark as Favorite (28 Favorites)

    In this lab, students will investigate the reaction of the hydrogen sulfite ion (HSO3-) and the iodate ion (IO3-) to determine the effect that changing concentration and temperature has on the reaction rate.

  • Access is an AACT member benefit. Lab: Determination of the Activation Energy of a Lightstick Mark as Favorite (25 Favorites)

    In this lesson students will participate in an inquiry-based lab approach to determine the activation energy of the chemiluminescent reaction in a lightstick. Students will use the Vernier LabQuest to collect data related to light and temperature for analysis using the Arrhenius equation.

  • Demonstration: Simple Kinetics Mark as Favorite (58 Favorites)

    In this demonstration, students will see that different food dyes react with bleach at different rates.

  • Activity: Simulation Activity: Half-Life Investigation Mark as Favorite (32 Favorites)

    In this simulation, students will have the opportunity to investigate the decay of two samples of unstable atoms. Students will interact with the simulation in order to decay the unstable samples resulting in a visual and graphical interpretation of half-life.

  • Access is an AACT member benefit. Activity: Reversible Reactions Simulation Mark as Favorite (40 Favorites)

    In this activity, students will investigate how temperature, activation energy, initial amounts of products and reactants, and type of reaction (exo- or endothermic) effect the equilibrium position of a reaction using a simulation.

  • Access is an AACT member benefit. Lesson Plan: Catalysis & Catalytic Converters Mark as Favorite (12 Favorites)

    In this lesson students will be introduced to catalysts while expanding their knowledge of chemical reactions and stoichiometry. They will first learn about catalytic converters and then be challenged to create the best “catalytic converter” of hydrogen peroxide to oxygen gas in an inquiry-based activity.

  • Access is an AACT member benefit. Lab: Titration Lab with Kinetics Mark as Favorite (15 Favorites)

    In this lab, students calculate the molarity of an unknown using a titration and also by solving for a dilution.

  • Access is an AACT member benefit. Lab: Acid/Base Stoichiometry Mark as Favorite (13 Favorites)

    In this lab, students experience a limiting reactant and can physically see the difference in amounts of product generated. They also see which reactant is in excess.

  • Demonstration: Milk of Magnesia Magic Mark as Favorite (100 Favorites)

    In this demonstration, students will observe a color change in a milk of magnesia solution as vinegar is added.

  • Access is an AACT member benefit. Lesson Plan: Rustbusters! A Lab Activity on Corrosion Mark as Favorite (12 Favorites)

    In this lesson students learn about factors affecting the rate of corrosion and evaluate the efficiency of different protective coatings to simulate products used in industry when building metal structures like ships or bridges.

  • Access is an AACT member benefit. Lesson Plan: AP Chemistry Experimental Evidence Review Mark as Favorite (47 Favorites)

    In this lesson, students will evaluate data from 16 simulated lab experiments that were designed to mirror the Recommended Labs from the College Board. Corresponding lab experiments and demonstration options have also been included for teacher reference.

  • Access is an AACT member benefit. Lesson Plan: The Downside to Catalysts - An Exploration of CFC's on the Ozone Layer Mark as Favorite (37 Favorites)

    In this lesson students will make observations of a colorful homogenous catalyst and intermediate in a reaction demonstration that will spark their interests. They will then work in teams to analyze graphs and data sets in order to make a real-world connection to AP topics in kinetics such as catalysts, intermediates and reaction mechanisms by exploring how CFCs work to break down the ozone layer. Students will also investigate and discuss this environmental issue.

  • Access is an AACT member benefit. Lesson Plan: AP Chemistry Big Idea Review Mark as Favorite (126 Favorites)

    In this lesson, students will complete a review of all of the AP Chemistry Big Ideas and Learning Objectives using questions targeting each learning objective. This lesson is based on the AACT AP Chemistry Webinar series: What’s the Big Idea? Last Minute AP Chem Review and What’s the Big Idea? AP Chemistry Review Redux. 

  • Simulation: Half-Life Investigation Mark as Favorite (15 Favorites)

    In the March 2017 simulation, students will have the opportunity to investigate the decay of two samples of unstable atoms. Students will interact with the simulation in order to decay the unstable samples resulting in a visual and graphical interpretation of half-life.

  • Access is an AACT member benefit. Video: Catalytic Converters Video Mark as Favorite (32 Favorites)

    This video investigates the role of a catalytic converter and its corresponding chemical reactions within a vehicle. Students will learn about both oxidation and reduction reactions and how they, in combination with a catalyst, can impact the molecules released in a car’s exhaust.

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