Classroom Resources: Atomic Structure


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26 – 34 of 34 Classroom Resources

  • Quantum Numbers, Electron Configuration, Electrons, Orbitals | High School

    Lesson Plan: Quantum Numbers

    In this lesson plan, students complete a worksheet answering questions regarding quantum numbers.

  • Atomic Theory, Electromagnetic Spectrum, Law of Conservation of Energy, Electrons | High School

    Activity: Simulation Activity: Exciting Electrons

    In this simulation, students will explore what happens when electrons within a generic atom are excited from their ground state. This is a qualitative investigation, not meant to mimic any particular atom.

  • Physical Properties, History, Periodic Table, Atoms, Model of the Atom, Isotopes, Electron Configuration, Valence Electrons, Atomic Mass, Subatomic Particles, Atomic Radius, Chemical Properties, Electrons, Orbitals | Middle School, High School

    Activity: Ptable.com Investigations

    In this activity, students will use the online periodic table found at www.ptable.com to investigate a number of chemistry concepts. Students will use this online resource to explore information about the elements, including historical data, physical properties, periodic trends and more.

  • Electricity, Electrostatic Forces, Subatomic Particles, Electrons, Electrons, Graphing | High School

    Lab: Electromagnetic Forces in the Atom

    In this lab, students will better understand that opposite charges attract each other, and like charges repel.

  • Periodic Table, Atoms, Model of the Atom, Valence Electrons, Subatomic Particles, Atomic Radius, Ionic Radius, Electron Affinity, Electrons, Ions | High School

    Activity: Periodic Trends II: Electron Affinity, Atomic Radius, & Ionic Radius

    In this simulation, students will focus their investigation on the electron affinity of an atom. Through the use of this simulation students will have the opportunity to examine the formation of an anion as well as compare the atomic radius of a neutral atom to the ionic radius of its anion.

  • Periodic Table, Atoms, Model of the Atom, Valence Electrons, Subatomic Particles, Atomic Radius, Ionic Radius, Ionization Energy, Electrons, Ions | High School

    Activity: Periodic Trends I: Ionization Energy, Atomic Radius & Ionic Radius

    In this simulation, students will investigate several periodic trends, including atomic radius, ionization energy and ionic radius. Through the use of this simulation students will have the opportunity to examine atomic data as well as visually compare and interact with select elements from the periodic table.

  • Introduction, Elements, Periodic Table, Atoms, Model of the Atom, Electrons | Middle School, High School

    Activity: Periodic Puzzler

    In this activity, students will learn about what makes up an atom and how important protons are in the placement of elements on the periodic table.

  • Atoms, Model of the Atom, Atomic Theory, Emission Spectrum, Electromagnetic Spectrum, Subatomic Particles, Emission Spectrum, Electrons | High School

    Lesson Plan: Modeling Energy in Chemistry: Energy and the Electron

    This activity is designed for students to build a scientific argument about the relationship between energy and spectral lines by exploring how light interacts with atoms. In the process, students will examine proposed models of the hydrogen atom and use collected data to analyze the proposed models. They will then select one of the models and write a scientific argument to support their choice. Students will then review additional data to support and/or refute their selection. Based on their analysis, students will revise their selected model and construct a new argument to support their revisions.  

  • Atomic Theory, Electromagnetic Spectrum, Law of Conservation of Energy, Electrons | High School

    Simulation: Exciting Electrons

    In the March 2015 issue, students explore what happens when electrons within a generic atom are excited from their ground state. They will see that when an electron relaxes from an excited state to its ground state, energy is released in the form of electromagnetic radiation.

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