Classroom Resources: Chemistry Basics
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26 – 39 of 39 Classroom Resources
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Separating Mixtures, Physical Change, Mixtures, Physical Properties, Experimental Design, Scientific Method, Error Analysis | High School, Middle School
Lab: Separation of a Mixture Mark as Favorite (54 Favorites)
In this lab, students devise their own method to separate a mixture of sand, salt, poppy seeds, and iron filings.
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Reaction Rate, Experimental Design, Scientific Method, Observations, Chemical Change | High School, Middle School
Lab: Reaction Rate Mark as Favorite (22 Favorites)
In this lab, students will explore factors that effect reaction rate and develop a general statement that describes how the factors (temperature, particle size, and concentration) effect the rate based on experimental data. This is an inquiry-based activity.
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Introduction, Interdisciplinary, Scientific Method, Experimental Design | High School
Activity: Experimental Design using Science and Engineering Practices Mark as Favorite (30 Favorites)
In this activity, students will read a short story about an experiment that was conducted about an everyday question. Then the student will decide if and how the experimenter followed the scientific method. Then they will consider their own everyday questions and propose a way to answer them experimentally.
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Introduction, Scientific Method, Experimental Design | High School
Activity: Procedure Pictures Mark as Favorite (18 Favorites)
In this activity students are put into groups of 2 – 3 and are then charged with developing a procedure to investigate a provided “fact or fiction” statement. The twist to this task is that they are not allowed to use words; their entire procedure must be represented in pictures. This idea is based on the recent “Can You Picture That?” article by Julie Damico in the February 2014 edition of The Science Teacher magazine.
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Heat, Specific Heat, Temperature, Experimental Design, Scientific Method, Physical Properties | High School, Middle School
Lesson Plan: Designing & Engineering a Fast Defroster Mark as Favorite (12 Favorites)
In this activity students use their understanding of energy transfer to “design a solution to a complex real-world problem, based on scientific knowledge, student-generated sources of evidence, prioritized criteria, and tradeoff considerations.” And “evaluate a solution to a complex real-world problem, based on scientific knowledge, student-generated sources of evidence, prioritized criteria, and tradeoff considerations.” The real world problem is to help a cook who is trying to make a meal, but realizes some of the ingredients are frozen and must be thawed before he can begin.
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Calorimetry, Exothermic & Endothermic, Heat, Specific Heat, Temperature, Scientific Method, Graphing, Experimental Design | High School
Lab: Cool Science: Building and Testing a Model Radiator Mark as Favorite (19 Favorites)
In this lab students construct a model of a car radiator to investigate parameters that lead to efficient cooling. Students investigate multiple variables as they experiment with various radiator designs. This lesson focuses on thermochemistry calculations and engineering practices.
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Catalysts, Reaction Rate, Experimental Design, Scientific Method, Chemical Change, Error Analysis, Balancing Equations, Percent Yield, Stoichiometry, Chemical Change, Measurements, Error Analysis, Dimensional Analysis | High School
Lesson Plan: Catalysis & Catalytic Converters Mark as Favorite (11 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.
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Density, Dimensional Analysis, Review, Measurements, Accuracy, Accuracy, Experimental Design, Error Analysis | High School, Middle School
Lab: Bowling Ball—Will it Sink or Float in Water? Mark as Favorite (7 Favorites)
In this lab, students will find the density of a bowling ball to determine whether it will sink or float in water.
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Chemical Change, Identifying an Unknown, Physical Properties, Chemical Properties, Chemical Change, Experimental Design, Scientific Method | High School, Middle School
Lab: As Easy as Pie Mark as Favorite (59 Favorites)
In this lab, students will use chemical and physical properties to identify an unknown powder.
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Radiation, Alpha/Beta/Gamma Decay, Graphing, Scientific Method, Experimental Design | High School
Lab: Alpha Beta Gamma Radiation Mark as Favorite (11 Favorites)
In this lab, students will investigate properties of three types of ionizing radiation—alpha, beta and gamma radiation. Students will have the opportunity to design their own procedures to explore the relationship between distance and radiation intensity.
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Observations, Scientific Method, Experimental Design, Error Analysis | High School
Lab: Airplanes Mark as Favorite (6 Favorites)
In this lab, students will design a procedure to test for the intended outcome of a longest flight.
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Observations, Combustion, Phase Changes, Experimental Design, Scientific Method | High School, Middle School
Lab: Observing a Candle Mark as Favorite (16 Favorites)
In this lab, students accumulate observations of a candle including a look at the combustion reaction's reactants and products.
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Conservation of Mass, Matter, Conservation of Matter, Conservation of Matter, Conservation of Mass, Balancing Equations, Chemical Change, Predicting Products, Experimental Design, Chemical Change, Observations | High School
Lab: Matter Matters Mark as Favorite (18 Favorites)
In this lesson, students will investigate the Law of Conservation of Mass.
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Calorimetry, Exothermic & Endothermic, Temperature, Stoichiometry, Limiting Reactant, Chemical Change, Molarity, Enthalpy, Heat, Concentration, Experimental Design, Scientific Method | High School
Lab: Less Than Zero Mark as Favorite (34 Favorites)
In this lab, students will investigate the endothermic reaction between baking soda and HCl. Students will consider stoichiometric ratios, molar concentrations, reaction scale, and calorimetry. The lab starts with a scripted reaction that uses given molar ratios, a glass beaker, and 2-M HCl. They will witness a temperature drop of about 5 to 8 C. Students then adjust the experiment so they can achieve a temperature drop of more than 20 C.