Classroom Resources: Nuclear Chemistry
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1 – 21 of 21 Classroom Resources
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Half Lives | High School
Activity: New Notifications Test Resource Mark as Favorite (0 Favorites)
New Notifications Test Resource
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Half Lives | High School
Activity: Test resource: future republish date Mark as Favorite (0 Favorites)
Test resource: future republish date
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Pros Cons of Nuclear Power, Alpha/Beta/Gamma Decay, Law of Conservation of Energy | High School
Activity: New nuclear chem resource Mark as Favorite (0 Favorites)
New nuclear chem resource
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Half Lives, Radioactive Isotopes, Radiation, Phase Changes | High School
Activity: Radioactive Dating: The Demise of Frosty Mark as Favorite (17 Favorites)
In this activity students will investigate the idea that carbon dating is based on gathering evidence in the present and extrapolating it to the past. Students will use a simple graph to extrapolate data to its starting point and then pool the data to make a graph that simulates half-life. Students will be introduced to solving mathematical problems that involve half-life.
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Radioactive Isotopes, Radiation, Half Lives, Atomic Structure, Subatomic Particles, Model of the Atom, History | Middle School, High School
Activity: Marie Curie Video Questions Mark as Favorite (5 Favorites)
In this activity, students will watch a short video and learn about Marie Curie, her Nobel Prizes, radiation experiments, and discovery of new elements.
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Radiation | High School
Activity: Nuclear Waste Challenge Mark as Favorite (20 Favorites)
In this activity, students will design a method to transfer “radioactive” waste from a contaminated area to a proper nuclear waste disposal site from a given list of materials. Students must follow rules and constraints when designing nuclear waste disposal devices and make an effort to maximize their economic gains.
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Radioactive Isotopes, Half Lives | High School
Activity: Using Dice to Explore Radioactive Decay Mark as Favorite (9 Favorites)
In this activity, students will use dice to simulate the radioactive “decay” of samples of two different elements with two different half-lives. At the end of the simulation, all the groups will pool their data (by round) and then the class results will be graphed. The graphs will be analyzed to illustrate the process of radioactive decay and to determine the half-life of each element in the fictitious time units of “rounds”.
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Radioactive Isotopes, Atomic Theory, History, Pros Cons of Nuclear Power, Radiation, Subatomic Particles | Middle School, High School
Activity: Lise Meitner Video Questions Mark as Favorite (7 Favorites)
In this activity, students will complete a short series of questions as they watch the Founders of Chemistry video about Lise Meitner. The video tells the story of Lise Meitner, a pioneering female scientist in the field of nuclear chemistry, who was denied a Nobel Prize but has an Element named in her honor.
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Pros Cons of Nuclear Power, Radiation, Radioactive Isotopes, Atomic Theory, Atoms, History | Middle School, High School
Video: Lise Meitner Video Mark as Favorite (10 Favorites)
This video tells the story of Lise Meitner, a pioneering female scientist in the field of nuclear chemistry, who was denied a Nobel Prize but has an Element named in her honor.
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Half Lives, Radioactive Isotopes, Radiation | High School
Activity: Simulation Activity: Half-Life Investigation Mark as Favorite (9 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.
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Radioactive Isotopes, Radiation, Half Lives, History | Elementary School, Middle School, High School
Video: Marie Curie Video Mark as Favorite (7 Favorites)
This video tells the story about Marie Curie, including her Nobel Prizes, radiation experiments, and discovery of new elements. Irene Curie is also mentioned.
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Radioactive Isotopes, History, Subatomic Particles, Model of the Atom, Atomic Theory | Middle School, High School
Video: Ernest Rutherford Video Mark as Favorite (28 Favorites)
Rutherford's initial research was studying alpha particles, which he hypothesized were helium nuclei. With the help of Hans Geiger, Rutherford conducted the gold foil experiment, which justifies that the nucleus of an atom is a dense collection of protons and contains the majority of an atom’s mass. It also inferred that most of the atom is empty space and electrons are not located in the nucleus. He won the Nobel Prize in chemistry in 1908 for his studies on radioactive substances.
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Periodic Table, History, Radioactive Isotopes | Elementary School, Middle School, High School
Video: Astatine Video Mark as Favorite (7 Favorites)
In this video, Sam Kean tells stories about astatine, the rarest element in the universe.
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Periodic Table, History, Radioactive Isotopes, Alpha/Beta/Gamma Decay | Elementary School, Middle School, High School
Video: Helium Video Mark as Favorite (6 Favorites)
In this video, Sam Kean tells stories about helium.
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Half Lives | High School
Lab: Twizzler Half-Life Mark as Favorite (16 Favorites)
In this lab, students will better understand the concept of half-lives.
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Pros Cons of Nuclear Power, Combustion, Acid Rain, Radiation, Renewable Energy, Radiation | High School
Activity: Town Meeting Mark as Favorite (6 Favorites)
In this activity, students will learn about acid rain, gas scrubbers, half-life, chain reactions, and other topics around electricity production through a debate on nuclear power.
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Radiation, Electromagnetic Spectrum, Radiation | Middle School, High School
Lab: The Most Effective Sunscreen Mark as Favorite (6 Favorites)
In this lab, students will research and compare the effectiveness of various SPF levels in sunscreen lotions. The lotion’s ability to block UV (ultraviolet) radiation from the sun will be tested using a UV bead detector.
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Half Lives | High School
Lab: Half-Life Mark as Favorite (12 Favorites)
In this lab, students visualize the random nature of atomic decay (or first order chemical reactions) and also helps them realize the important difference between macroscale and microscale phenomena.
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Radiation, Alpha/Beta/Gamma Decay | High School
Lab: Alpha Beta Gamma Radiation Mark as Favorite (4 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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Pros Cons of Nuclear Power, Radiation, Radiation, Renewable Energy | High School
Activity: Nuclear Energy Power Plants Mark as Favorite (14 Favorites)
In this activity, students will write a persuasive essay in which they state an opinion about whether the number of nuclear plants should be increased or decreased.
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Pros Cons of Nuclear Power, Radiation, Radiation, Renewable Energy | High School
Activity: Nuclear Energy Debate Mark as Favorite (19 Favorites)
Nuclear Energy Debate Grade Level: High School Topic: Nuclear Chemistry Subtopic: Pros Cons of Nuclear Power