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Redox Reactions: Crash Course Chemistry #10

  Classroom Resource Information  

Title:

 Redox Reactions: Crash Course Chemistry #10

URL:

 https://aptv.pbslearningmedia.org/resource/b50a6d13-14d6-409b-9c92-fd92c3ccd2b1/redox-reactions-crash-course-chemistry-10/

Content Source:

 PBS
Type: Audio/Video

Overview:

In this video, we will explore all the magic in the transfer of electrons. Reduction (gaining electrons) and oxidation (the loss of electrons) combine to form Redox chemistry, which contains the majority of chemical reactions. As electrons jump from atom to atom, they carry energy with them, and that transfer of energy is what makes all life on earth possible.

Content Standard(s):
Science
SC2015 (2015)
Grade: 9-12
Chemistry
3 ) Use the periodic table as a systematic representation to predict properties of elements based on their valence electron arrangement.

a. Analyze data such as physical properties to explain periodic trends of the elements, including metal/nonmetal/metalloid behavior, electrical/heat conductivity, electronegativity and electron affinity, ionization energy, and atomic-covalent/ionic radii, and how they relate to position in the periodic table.

b. Develop and use models (e.g., Lewis dot, 3-D ball-and-stick, space-filling, valence-shell electron-pair repulsion [VSEPR]) to predict the type of bonding and shape of simple compounds.

c. Use the periodic table as a model to derive formulas and names of ionic and covalent compounds.

NAEP Framework
NAEP Statement::
P12.6: An atom's electron configuration, particularly of the outermost electrons, determines how the atom can interact with other atoms. The interactions between atoms that hold them together in molecules or between oppositely charged ions are called chemical bonds.

Unpacked Content
Scientific And Engineering Practices:
Developing and Using Models; Analyzing and Interpreting Data
Crosscutting Concepts: Patterns; Systems and System Models; Structure and Function
Disciplinary Core Idea: Matter and Its Interactions
Evidence Of Student Attainment:
Students:
  • Use the periodic table as a model to predict relationships between the arrangements of elements on the periodic table and the structure of the atom.
  • Use the periodic table to predict the patterns of behavior of the elements based on the attraction and repulsion between electrically charged particles.
  • Use the periodic table to predict the patterns of behavior of the elements based on the patterns of the valence electrons.
  • Use the periodic table to predict the patterns in bonding and shape based on the patterns of the valence electrons.
  • Use the arrangement of elements on the periodic table to name compounds.
Teacher Vocabulary:
  • Protons
  • Neutrons
  • Nucleus
  • Electrons
  • Valence
  • Main group elements
  • Properties
  • Atoms
  • Elements
  • Periods/ Rows
  • Groups/ Families/ Columns
  • Atomic/ molecular level
  • Macroscopic level
  • Periodic trends
  • metal/ nonmetal/ metalloid behavior
  • electrical/ heat conductivity
  • electronegativity
  • electron affinity
  • ionization energy
  • atomic-covalent/ ionic radii
  • Molecular modeling
  • Lewis dot
  • 3-D ball-and-stick
  • space-filling
  • VSEPR
  • Types of bonds
  • ionic bonds
  • covalent/ molecular bonds
  • metallic bonds
  • Molecular shapes
  • Ions
  • Ionic compounds
  • Covalent/ molecular compounds
Knowledge:
Students know:
  • The atom has a positively-charged nucleus, containing protons and neutrons, surrounded by negatively-charged electrons.
  • The periodic table can be used to determine the number of particles in an atom of a given element.
  • The relationship between the arrangement of main group elements on the periodic table and the pattern of valence electrons in their atoms.
  • The relationship between the arrangement of elements on the periodic table and the number of protons in their atoms.
  • The trends in relative size, reactivity, and electronegativity in atoms are based on attractions of the valence electrons to the nucleus.
  • The number and types of bonds formed (i.e. ionic, covalent, metallic) by an element and between elements are based on the arrangement of valence electrons in the atoms.
  • The shapes of molecules are based on the arrangement of valence electrons in the atoms.
  • The rules for naming chemical compounds are based upon the type of bond formed.
  • The number and charges in stable ions that form from atoms in a group of the periodic table are based on the arrangement of valence electrons in the atoms.
Skills:
Students are able to:
  • Predict relative properties of elements using the periodic table.
  • Predict patterns in periodic trends based on the structure of the atom.
  • Predict patterns in bonding and shape based on the structure of the atom.
  • Use the periodic table to determine how elements will bond.
Understanding:
Students understand that:
  • Models are based on evidence to illustrate the relationships between systems or between components of a system.
  • Each atom has a charged substructure consisting of a nucleus, which is made of protons and neutrons, surrounded by electrons.
  • The periodic table arranges elements into periods/ rows by the number of protons in the atom's nucleus.
  • Elements with similar properties are placed into groups/ families/ columns based on the repeating pattern of valence electrons in their atoms.
  • Attraction and repulsion between electrical charges at the atomic scale explain the structure, properites, and transformations of matter, as well as the contact forces between material objects.
  • The attraction and repulsion of charged particles in the atom creates patterns of properties of elements.
  • The arrangement of valence electrons in an atom also creates patterns of properties of elements.
  • Elements form bonds based upon their valence electron arrangement.
  • Chemical compounds are named based upon the type of bonds formed by their constituent atoms/ ions.
  • Different patterns may be observed at the atomic/ molecular level and the macroscopic level.
AMSTI Resources:
ASIM Module:
Chemicool People; It's In The Cards; Paramagnetism and Diamagnetism; Periodic Trends; Properties of Elements; Chem Cubes; Chemical Nomenclature; Bond Types and Physical Properties; Covalent Bonding and Lewis Structures; Molecular Shape and Polarity; Elephant Toothpaste
Tags: chemistry, electron, oxidation, redox, reduction
License Type: Custom Permission Type
See Terms: https://www.pbs.org/about/about-pbs/terms-of-use/
For full descriptions of license types and a guide to usage, visit :
https://creativecommons.org/licenses
AccessibilityVideo resources: includes closed captioning or subtitles
Comments

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Author: Stephanie Carver
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