Classroom Resources: Molecules & Bonding
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26 – 50 of 185 Classroom Resources
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Covalent Bonding, Ionic Bonding, Lewis Structures, Polarity, Ions, Electrons, Valence Electrons, Lewis Dot Diagrams, Electrostatic Forces | Middle School, High School
Activity: Animation Activity: Bonding Mark as Favorite (9 Favorites)
In this activity, students will view an animation that explores how different chemical bonds form. Examples of ionic, covalent, and polar covalent bonds are animated, and then students are given a sample of compounds to predict the bonding types.
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Review, Periodic Table, Physical Properties, Subatomic Particles, Electron Configuration, Covalent Bonding, Ionic Bonding, Naming Compounds, Molecular Geometry, VSEPR Theory, Lewis Structures, Chemical Change, Limiting Reactant, Stoichiometry | High School
Activity: Chemistry Review Escape Room Mark as Favorite (131 Favorites)
In this activity, students will work collaboratively to apply their chemistry knowledge in order to “escape the room.” They will work to solve four clues that span a plethora of topics ranging from Atomic Structure all the way up to Stoichiometry. These four clues will point them to four chemical reactions to conduct on a small-scale basis that will correspond with a four-digit combination to a lock. This engaging activity is not only fun for all students but also allows for interactive and collaborative review.
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Ionic Bonding, Covalent Bonding, Lewis Structures, Model of the Atom, Valence Electrons | Middle School, High School
Activity: Chemists in the Lab Game Mark as Favorite (45 Favorites)
In this activity, students will play a game that is modeled after Settlers of Catan to explore how atoms of certain elements combine in fixed ratios to form molecules.
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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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Molecular Structure, Intermolecular Forces, Polarity, Molecular Structure , Combustion | High School
Activity: Ingenious: Making Shipping Greener with Hairy Ships Video Questions Mark as Favorite (4 Favorites)
In this activity, students will answer questions while watching the video, Making Shipping Greener with Hairy Ships, 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 “fouling” of boats (when aquatic animals like barnacles and tubeworms attach to hulls), and the impact it has on fuel efficiency. Since fouling is a significant contributor to the carbon footprint, this video highlights how scientists were inspired by unique aquatic plants to develop a stick-on silicone coating for ships that prevents animal hitchhikers from getting a foothold.
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Molecular Structure, Intermolecular Forces, Polarity, Molecular Structure , Combustion | High School
Video: Ingenious Video 5: Making Shipping Greener with Hairy Ships Mark as Favorite (6 Favorites)
The “fouling” of boats — when aquatic animals like barnacles and tubeworms attach to hulls — has been a nuisance for as long as we’ve been sailing the seas. Fouling messes up a vessel’s streamlined shape, decreasing its speed, maneuverability, and in modern times, its fuel-efficiency. Fouling spikes the carbon footprint of the shipping industry, already greater than that of most countries. For centuries, people used copper coatings to prevent fouling. Modern solutions use toxic chemical paints that pollute the water, kill marine life, and contribute to the degradation of our oceans when they wear off. A new approach is trying to work with nature instead of against it. Taking inspiration from the Salvinia plant, which is covered in tiny hair-like structures that make it basically waterproof, scientists are developing a stick-on silicone coating for ships that prevents animal hitchhikers from getting a foothold.
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Molecular Structure, Intermolecular Forces, Polarity, Polymers, Molecular Structure , Functional Groups, Polymers | High School
Activity: Ingenious: Kill More Germs by Cleaning … Less? Video Questions Mark as Favorite (5 Favorites)
In this activity, students will answer questions while watching the video, Kill More Germs by Cleaning… Less?, 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 chemistry of cleaning. Unfortunately, clean doesn’t last as long as you might think—this video examines how disinfectants work and also how long they lasts. Scientists share about the next generation of cleaning products, that keeps the germ-killing ingredients in place and effective much longer.
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Molecular Structure, Intermolecular Forces, Polarity, Polymers, Molecular Structure , Functional Groups, Polymers | High School
Video: Ingenious Video 6: Kill More Germs by Cleaning … Less? Mark as Favorite (1 Favorite)
There’s clean, and then there’s CLEAN. Even if something looks clean, it might still be harboring microbes – many of them harmless, some of them definitely not. With most of the ways that we clean and disinfect — that is, kill germs — the clean doesn’t last as long as you might think. Disinfectants work by attacking bacterial membranes and viral protein coats, breaking them down so that those germs fall apart and die. But the germaphobes were always right: As soon as a disinfectant dries, and a surface is re-exposed, like if someone touches or (worse) sneezes on it, it needs be disinfected all over again. The next generation of cleaning products, however, add a trick: they lay down an incredibly thin polymer layer that keeps the germ-killing ingredients in place and effective for 24 hours at a time.
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Solubility Rules, Solubility, Ionic Bonding, Predicting Products | High School
Activity: Solubility Rules Dice Game Mark as Favorite (36 Favorites)
In this activity, students will use ion dice to form a number of different ionic compounds. Based on the resulting ionic compound, they will use a solubility chart to determine if it is soluble or insoluble. This game will allow students to become more familiar with ionic compounds and solubility rules.
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Radiation, Molecular Structure, Polarity, Heat | High School
Lesson Plan: Why Does Carbon Get Such a Bad Rap? Mark as Favorite (0 Favorites)
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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Polymers, Molecular Structure, Molecular Structure , Polymers, Solubility | High School
Video: Ingenious Video 4: How Science Is Fixing Recycling's Grossest Problem Mark as Favorite (2 Favorites)
Polypropylene recycling has a problem: It stinks. Food and other residues are almost impossible to remove entirely from polypropylene, a.k.a the number “5” plastic of grocery-store fame. Those residues – anything from yogurt to garlic, from fish oil to baby food – not only stick to polypropylene, they degrade there and start to smell even worse! Current polypropylene recycling techniques are more down-cycling than re-cycling. Unless you break down its molecules through a highly energy-intensive refining process, the material can only get a second life as a black trash can or an underground pipe – wherever its smell doesn’t matter. But a new technique, called dissolution recycling, is changing all that. Dissolution recycling uses a special hydrocarbon polymer solvent under finely controlled conditions of temperature and pressure to eliminate ALL of the contaminants embedded in the plastic.
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Polymers, Molecular Structure, Molecular Structure , Polymers, Solubility | High School
Activity: Ingenious: How Science Is Fixing Recycling's Grossest Problem Video Questions Mark as Favorite (4 Favorites)
In this activity, students will answer questions while watching the video, How Science is Fixing Recycling’s Grossest 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 stinky problems associated with polypropylene recycling. Current polypropylene recycling techniques are more down-cycling than re-cycling, but a new technique, called dissolution recycling, is changing all that.
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Identifying an Unknown, Experimental Design, Chemical Properties, Physical Properties, Observations, Polyatomic Ions, Chemical Change, Ionic Bonding, Covalent Bonding, Solubility | High School
Lab: Determining the Composition of Bridge Straw Stalactites Mark as Favorite (8 Favorites)
In this lab, students will investigate “straws” that hang from a local bridge, and then determine various tests that can help to determine their chemical composition. Evaluating both the test results, as well as given information students will then make a claim about the composition, while providing evidence and supporting it with reasoning.
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Molecular Structure, Chemical Bond, Electromagnetic Spectrum, Molecular Structure | High School
Activity: Ingenious: What Birds Know About Color that You Don't Video Questions Mark as Favorite (2 Favorites)
In this activity, students will answer questions while watching the video, What Birds Know about Color that You Don’t, 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 structural color, its complexities as well as how it differs from pigments and dyes.
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Catalysts, Molecular Structure | High School
Video: Ingenious Video 1: The Strange Chemistry Behind Why You Get Sick on Planes Mark as Favorite (10 Favorites)
The compound ozone, a known respiratory irritant, exists in high concentrations at flight altitudes, making the “fresh air” sucked in by air conditioners at those heights, well, not so fresh. In fact ozone exposure may be responsible for many of the short-term discomforts we associate with air travel. What’s more, ozone can react with other compounds in the air -- even the oils of our skin -- to produce other toxic compounds, like aldehydes and ketones. Some planes have catalytic converters, like the ones in cars, which use transition metals to turn ozone into breathable oxygen. But not every plane has one!
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Electromagnetic Spectrum, Molecular Structure, Chemical Bond, Molecular Structure | High School
Video: Ingenious Video 2: What Birds Know About Color that You Don't Mark as Favorite (7 Favorites)
We’ve been using pigments and dyes for thousands of years, but they’re not the whole story when it comes to making color. “Structural” color occurs when tiny nanostructures interact with light waves, amplifying certain colors and canceling others. From brilliant bird feathers to butterfly wings, mole hairs to octopus skin, structural color is everywhere in the natural world. Researchers have tried for years to harness this incredible natural phenomenon in a useful way. Because these colors are so small and complex, and therefore hard to copy, their efforts have met with little success. But novel research using a computer model based in repeated random sampling — a so-called “Monte Carlo” model — is showing promise. Using this approach, scientists have been able to mimic the gorgeous blue of the mountain bluebird in a thin film of reflective beads, leapfrogging millennia of evolution.
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Molecular Structure, Catalysts | High School
Activity: Ingenious: The Strange Chemistry Behind Why You Get Sick on Planes Video Questions Mark as Favorite (3 Favorites)
In this activity, students will answer questions while watching the video, The Strange Chemistry Behind Why You Get Sick on Planes, 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 compound ozone and why it might be responsible for some of the discomforts associated with air travel.
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Molecular Structure, Molecular Formula, Measurements, Significant Figures, Molecular Structure , Saturated vs. Unsaturated | Middle School, High School
Project: Discovering Chemical Elements in Food Mark as Favorite (25 Favorites)
In this project, students will analyze nutrition labels of some of the foods and drinks that they recently consumed. They will identify which type of macromolecule (carbohydrates, lipids, proteins) is mainly supplied by the item and they will compare their consumption with the daily recommended intake for that type of macromolecule. Students will also investigate salt and added sugar as well as vitamins and minerals in the item. Finally, students will present their findings through short, spoken messages that are recorded and presented through a QR code. These can become a source of information for the school community at large upon completion of the project.
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Physical Properties, Chemical Properties, Elements, Matter, Covalent Bonding, Ionic Bonding, Intermolecular Forces, Polymers | Middle School, High School
Project: The Chemistry of Toys Mark as Favorite (23 Favorites)
In this project, students will study the chemistry behind a toy or novelty item of their choosing. They will look at the parts that make up their item and determine what materials each part is made of; the types of atoms, molecules, and bonds present in those materials; and their physical and chemical properties.
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Molecular Structure, Introduction, Matter | High School
Activity: Real World Particle Diagramming Mark as Favorite (73 Favorites)
In this activity, students illustrate everyday objects on the particulate level. To do this, students pick an object around the school (or their home) and then take a picture of the object, research its composition, and draw a particle diagram representation of the object. This helps students to gain confidence in representing matter at a particulate level by starting with familiar objects.
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Law of Definite Proportions, Law of Multiple Proportions, Percent Composition, Molar Mass | High School
Lesson Plan: Exploring the Laws of Definite and Multiple Proportions Mark as Favorite (7 Favorites)
In this lesson, students will review the concept of percent composition and then apply it to the laws of definite and multiple proportions.
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Review, Culminating Project, Mixtures, Separating Mixtures, Beer's Law, Concentration, Redox Reaction, Half Reactions, pH, Titrations, Buffers, Indicators, Ionic Bonding, Covalent Bonding, Alloys, Percent Composition, Le Châtelier's Principle, Enthalpy, Calorimetry, Conductivity | High School
Lesson Plan: AP Chemistry Experimental Evidence Review Mark as Favorite (36 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.
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Molecular Structure, Chemical Properties | High School
Lesson Plan: The Chemistry of Vaccines Mark as Favorite (40 Favorites)
In this lesson, students will read the article, Can a Vaccine End the Pandemic? by Wynne Parry from the December 2020 edition of ChemMatters magazine. Students will answer questions based on the content of the article and also have the opportunity to do additional research. Finally, they will create a podcast discussing the chemistry of vaccines.