Classroom Resources: Energy & Thermodynamics
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Law of Conservation of Energy, Heat, Temperature, Combustion, Chemical Change | High School
Lesson Plan: Cow Power! Emergency Lesson Mark as Favorite (6 Favorites)
In this lesson, students will learn about energy, renewable energy, greenhouse gases, and chemical reactions through reading the highly rated ChemMatters article, Cow Power. The lesson includes several activities to help promote literacy in the science classroom related to the reading. This lesson could be easily used as an emergency lesson plan for a substitute teacher, as most of the activities are self-guided.
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Renewable Energy, Heat, Temperature, Specific Heat, Interdisciplinary, Graphing | Middle School, High School
Lesson Plan: Solar Cookers Mark as Favorite (9 Favorites)
In this lesson, students will learn about the use of alternative cooking fuels that could replace burning wood, coal, or other smoke-producing materials to heat and cook food in developing nations, focusing on solar cookers. They will watch a video and read an article that provide a general overview of the need for alternative fuels. Then, in small groups, students will research, design, build, and test a solar cooker to determine if it is an effective method of cooking food in a developing nation. They will give a presentation to the class on their design, test results, and any improvements they would make to their initial design, and they will answer some reflection questions about the solar cookers made by their class and their role in the group project.
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Colligative Properties, Boiling Point Elevation, Freezing Point Depression, Concentration, Solute & Solvent, Boiling Point, Freezing Point, Phase Changes, Molecular Motion, Graphing, Physical Properties, Heat, Temperature | Middle School, High School
Activity: Simulation Activity: The Effect of Solutes on Boiling and Freezing Point Mark as Favorite (31 Favorites)
In this activity, students will use a colligative properties simulation to investigate the effects of different solutes, and different amounts of those solutes, on the boiling point and freezing point of a solution. Students will see particle-level animations of boiling and freezing with different types and amounts of solutes, as well as graphical representations of the results of each trial.
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Colligative Properties, Boiling Point Elevation, Freezing Point Depression, Concentration, Solute & Solvent, Boiling Point, Freezing Point, Phase Changes, Molecular Motion, Graphing, Physical Properties, Heat, Temperature | High School
Simulation: Colligative Properties Mark as Favorite (24 Favorites)
In this simulation, students will investigate the effects of different solutes, and different amounts of those solutes, on the boiling point and freezing point of a solution. Students will see particle-level animations of boiling and freezing with different types and amounts of solutes, as well as graphical representations of the results of each trial.
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Electromagnetic Spectrum, Heat, Radiation, Physical Properties, Chemical Properties, History, Interdisciplinary, Functional Groups, Molecular Structure | High School
Lesson Plan: Mars Exploration with Infrared Spectrometers Mark as Favorite (11 Favorites)
In this lesson, students will learn about how space scientists used infrared spectrometers to explore Mars through an article reading. Space exploration involves a lot of chemistry, which many students are surprised to learn. There are a series of activities to help promote literacy in the science classroom related to the reading. This lesson could be easily used as plans for a substitute teacher, as most of the activities are self-guided.
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Heat, Boiling Point, History | High School
Lesson Plan: Norbert Rillieux, Thermodynamics and Chemical Engineering Mark as Favorite (13 Favorites)
In this lesson, students will learn about thermodynamics through a historical story of a budding Black chemical engineer named Norbert Rillieux. He is credited with creating the process for isolating sugar crystals from sugarcane because of his keen understanding of thermodynamics. There are a series of activities to help promote literacy in the science classroom related to the reading. This lesson could be easily used as plans for a substitute teacher, as most of the activities are self-guided. Rillieux’s story is interesting from a diversity standpoint. He was a free biracial scientist living in the South during pre-Civil War times. This story provides an opportunity to discuss diversity, equity, and inclusion in the chemistry classroom.
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Temperature, Temperature, Heat, Photosynthesis, Isotopes | High School
Lesson Plan: Climate Change and the Keeling Curve Mark as Favorite (17 Favorites)
In this lesson, students will learn about climate change through reading about research behind carbon dioxide emissions, which led to the development of the Keeling Curve. Isotopic tracing as well as photosynthesis are briefly touched on. There are a series of activities to help promote literacy in the science classroom related to the reading. This lesson could be easily used as plans for a substitute teacher, as most of the activities are self-guided.
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Physical Properties, Heat, Alloys | High School
Lab: Investigating Heat Treatments and Properties of Steel Mark as Favorite (15 Favorites)
In this lab, students will take on the perspective of a material scientist working for a company that makes shocks and struts for car suspension by applying three different heat treatments to steel coils. Students will test how these heat treatments affect the properties of the high carbon steel.
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Heat, Temperature, Specific Heat, Law of Conservation of Energy, Enthalpy, Calorimetry, Exothermic & Endothermic, Balancing Equations, Chemical Change, Measurements, Mole Concept, Dimensional Analysis, Culminating Project, Interdisciplinary, Review, Graphing, Observations, Chemical Properties, Physical Properties | High School
Project: Handwarmer Design Challenge Mark as Favorite (35 Favorites)
In this project, students will use their knowledge of thermodynamics to design a handwarmer for a manufacturing company that can maintain a temperature of 30-40°C for at least 5 minutes and is designed for the average human hand. Students will create a final product after rounds of testing and an advertising poster that summarizes the results of their testing and promotes their design.
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Heat, Physical Properties, Physical Change, Molecular Structure, Monomer, Polymers | High School
Video: Ingenious Video 7: The World has a Receipt Problem Mark as Favorite (7 Favorites)
The receipts you take home from the store – or stuff in your bag, or lose in your car -- employ a printing method that’s been around since the 1970s. Thermal printing involves heat-sensitive inks called leuco dyes that show up when they react with an acid developer embedded in the paper. Not only do these inks fade easily, but receipts that use them aren’t recyclable, and could even be dangerous to your health. Taking a cue from a failed experiment, scientists are developing a new kind of receipt paper that will use the same thermal printers without leuco dyes. Instead of acid developers, this paper is coated in reflective microspheres that collapse under heat, allowing regular ink underneath to show through.
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Heat, Physical Properties, Physical Change, Molecular Structure, Monomer, Polymers | High School
Activity: Ingenious: The World Has a Receipt Problem Video Questions Mark as Favorite (6 Favorites)
In this activity, students will answer questions while watching the video The World has a Receipt Problem from the Ingenious series produced by the American Chemical Society. Each episode investigates a different topic related to how leading-edge chemistry is taking on the world’s most urgent issues to advance everyone’s quality of life and secure our shared future. This episode investigates the process of thermal printing on receipts, and the limitations related to the paper that currently prints using leuco dyes. This heat-sensitive ink appears when it reacts with an acid developer embedded in the paper. Scientists are working to develop a new kind of thermal receipt paper, that can use the same printers, however it offers many additional benefits and potential uses.
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Freezing Point Depression, Heat, Phase Changes, Molecular Motion | Middle School, High School
Lab: Sweet, Salty and Cold as Ice Mark as Favorite (27 Favorites)
In this lab, students conduct a micro-scale investigation to explore how various solutes affect the freezing point of water. Because of the small volume of liquid used, results are visible within minutes. Students observe what happens to the liquids as they are cooled and use their observations to infer what is going on at the particle level. They will use the results to explain the familiar phenomena of why we salt our roads and sidewalks in the winter and why freshwater lakes and ponds freeze over more easily than saltwater oceans in the winter.
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Radiation, Molecular Structure, Polarity, Heat | High School
Lesson Plan: Why Does Carbon Get Such a Bad Rap? Mark as Favorite (1 Favorite)
In this lesson, students will use a climate change scenario to understand the role that polar bonds play in whether a molecule can be considered a greenhouse gas, while learning the particle nature of matter-energy interactions.
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Lab Safety, Physical Properties, Chemical Properties, Interdisciplinary, Heat, Temperature, Polymers, Polymers | High School
Activity: Ingenious: This Sandwich Will Save Your Life in an Arc Flash Video Questions Mark as Favorite (8 Favorites)
In this activity, students will answer questions while watching the video, This Sandwich will Save your life in an Arc Flash, from the Ingenious series produced by the American Chemical Society. Each episode investigates a different topic related to how leading-edge chemistry is taking on the world’s most urgent issues to advance everyone’s quality of life and secure our shared future. This episode investigates the composite fabrics that protect lives of many people, like industrial workers, firefighters, and soldiers. When these workers encounter a fiery situation, they rely on protective clothing, designed using multiple layers of chemistry, to keep them safe.
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Lab Safety, Physical Properties, Chemical Properties, Interdisciplinary, Heat, Temperature, Polymers, Molecular Structure | High School
Video: Ingenious Video 3: This Sandwich Will Save Your Life in an Arc Flash Mark as Favorite (3 Favorites)
It’s never fun when your clothes catch on fire. And while “stop, drop, and roll” may be a good idea sometimes, in more extreme cases, you need a better plan. Every day, industrial workers, firefighters, and soldiers risk fiery situations that might seem hard to imagine. In an arc flash event, for one, temperatures can jump to metal-melting levels in milliseconds. How can anyone possibly survive that? Well, take a tip from a club sandwich, because it’s all about the layers. The composite fabrics that protect life and limb in these situations rely on some incredible, multilayered chemistry, including the ability to quickly form a protective carbonaceous crust around the wearer.
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Heat, Specific Heat, Phase Changes, Intermolecular Forces | High School
Activity: "It's a Phase" Puzzles Mark as Favorite (1 Favorite)
In this activity, students will complete either a crossword puzzle or a word search puzzle for common vocabulary terms related to the topics of phase changes and heat transfer. This activity provides an opportunity for students to increase their familiarity with the terms that they will be expected to use when learning about thermochemistry.
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Hess's Law, Calorimetry, Heat, Enthalpy, Error Analysis | High School
Lab: Utilizing Hess's Law Mark as Favorite (37 Favorites)
In this lab, students will use a coffee cup calorimeter to collect data that will allow them to calculate ∆H for two reactions. The first reaction, between sodium bicarbonate and hydrochloric acid is endothermic. The second, between sodium carbonate and hydrochloric pressure, is exothermic. They will then use their experimental values and Hess’s Law to determine ∆H for the decomposition of sodium bicarbonate, compare their calculated value to the theoretical value, and calculate the percent error. This resource includes a prelab presentation and sample calculations.
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Specific Heat, Heat, Temperature | High School
Simulation: Understanding Specific Heat Capacity Mark as Favorite (71 Favorites)
In this simulation, students will play the role of engineer. They will calculate the specific heat capacity of various materials to determine which ones meet stated criteria and then perform a cost analysis to determine which material to use.
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Specific Heat, Heat, Temperature, Experimental Design | Middle School, High School
Activity: Simulation Activity: Understanding Specific Heat Mark as Favorite (28 Favorites)
In this simulation, students will play the role of engineer in deciding which materials are the best candidates for a building project. They will calculate the specific heat capacity of various building materials to determine which ones meet the criteria for building an energy efficient home. Students will also do a cost analysis to determine which material to use in their building project. On the student activity sheet, they will answer additional conceptual and numerical questions related to specific heat capacity.
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Chemical Change, Reaction Rate, Chemical Change, Exothermic & Endothermic, Heat, Temperature | High School
Lab: A Comparison of Two Chemical Reactions Mark as Favorite (42 Favorites)
In this lab, students will perform two chemical reactions, one between acetic acid and sodium bicarbonate and the other between the citric acid and the sodium bicarbonate in an Alka-Seltzer tablet when dissolved in water. Both reactions will produce gas while reacting in a closed plastic sandwich bag, causing it to inflate. Students will observe the reactions and analyze the results in order to understand indicators of chemical changes, heat flow, and factors that affect reaction rates
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Heat, Temperature, Exothermic & Endothermic | Middle School, High School
Lab: Energy Transfer Investigation Mark as Favorite (27 Favorites)
In this lab, students will experience several examples of energy transfer. They will analyze their observations and interpret their results in an attempt to explain why each transfer took place.
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Molecular Structure, Molecular Geometry, Polymers, Electronegativity, Heat, Temperature, Electricity | Middle School, High School
Activity: Future of Paint Video Questions Mark as Favorite (3 Favorites)
In this activity, students will watch a video and answer related questions about the fascinating and innovative scientific advancements of paint. During the video, Students will learn how the molecular components in paint are helping to evolve in the world around them.
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Electricity, Anode, Cathode, Galvanic Cells, Heat, Renewable Energy | High School
Activity: Alternative Fuels Video Questions Mark as Favorite (5 Favorites)
In this activity, students will watch a video and answer related questions about the alternatives to petroleum-based fossil fuels such as biofuels and hydrogen fuel cells. Students will learn about the pros and cons of various fuel sources, as well as possibilities for the future of fuels.
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Introduction, Interdisciplinary, History, Heat, Renewable Energy, Polymers, Molecular Structure | Middle School, High School
Video: Frontiers of Chemistry Mark as Favorite (16 Favorites)
This video explores new scientific developments that were made possible by the application of fundamental chemistry concepts. Students will learn about exciting advances in science and technology focused on three main topics: Solar Cells, 3D Printing and Micro Machines.
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Heat of Combustion, Heat, Exothermic & Endothermic, Combustion, Polymers, Molecular Structure | High School
Activity: The Internal Combustion Engine Video Questions Mark as Favorite (15 Favorites)
In this activity, students will watch a video and answer related questions about the mechanical and chemical processed used in the internal combustion engine. Additionally they will learn about reactions and fuel types as well as the history and evolution of the combustion engine.