Previous Grade Unit #: Unit Title
All TEKS in the previous grade's unit are listed.
(Any strikethrough TEKS do not directly connect to current grade.)
Subtopic Title
Summary of TEKS that support current grade
Strikethrough text indicated TEKS that do not connect to current grade
Current Grade Unit #: Unit Title affected by a missed unit in the previous grade.
Not all TEKS are listed here. Only TEKS which directly connect to missed TEKS from the previous grade.
Subtopic Title
Topics or summary of TEKS that directly connect to TEKS missed in the previous grade.
2019-2020 Chemistry
Unit: Acids and Bases
C.7A, C.7B, C.8F, C.10E, C.10G, C.10H
Acids and Bases: Define and Naming
C.10G Define acids and bases and distinguish between Arrhenius and Bronsted-Lowry definitions.
C.7A Name acids and bases using International Union of Pure and Applied Chemistry nomenclature rules.
C.7B Write the chemical formulas of acids and bases.
pH and Strong and Weak Acids and Bases
C.10H Define pH and calculate the pH of a solution using the hydrogen ion concentration.
C.10E Distinguish among types of solutions such as strong and weak acids and bases.
Predicting Acid-Base Reactions
C.10G Predict products of acid-base reactions that form water as a product.
C.8F Differentiate acid and base reactions from other types of reactions.
Unit: Thermochemistry
C.11C, C.11D
C.11D Perform calculations involving heat, mass, temperature change, and specific heat.
Thermochemical Reactions
C.11C Classify reactions as exothermic or endothermic and represent energy changes that occur in chemical reactions using thermochemical equations or graphical analysis.
Unit: Gas Laws
C.9A, C.9B, C.10F, C.8G
Gas Laws and Kinetic Molecular Theory
C.9B Describe the postulates of kinetic molecular theory.
C.10F Investigate factors that influence gas solubilities such as temperature.
C.9A Describe and calculate the relations between volume, pressure, number of moles, and temperature for an ideal gas as described by Boyle’s law, Charles’ law, Avogadro’s law, Dalton’s law of partial pressure, and the ideal gas law.
Gas Stoichiometry
C.8G Perform stoichiometric calculations including gas volume relationships between reactants and products.
2020-2021 Physics/ Principles of Technology will not address Chemistry Units of Acids and Bases and Gas Laws.
AP Chemistry
Therefore, in one to two years, AP Chemistry should be aware that students have had little to no experience with acids and bases and gas stoichiometry.
Forensics
Therefore, in two to three years Forensics should be aware that students have had little to no experience with acids and bases.
Environmental Systems
Therefore, in one to two years, Environmental Systems should be aware that students have had little to no experience with solubility factors.
AP Physics 2
Therefore, in one to two years, AP Physics 2 should be aware that students have had little to no experience with thermochemistry and with atomic and nuclear physics.
AP Physics C: Mechanical
Therefore, in one year, AP Physics C: Mechanical should be aware that students have had little to no experience with waves.
Astronomy
Therefore, in one year, Astronomy should be aware that students have had little to no experience with Doppler shift as it relates to evidence of the Big Bang Theory.
2019-2020 Physics
Unit: Waves
P.7A, P.7B, P.7C, P.7D
Simple Harmonic Motion
P.7A Examine and describe oscillatory motion and wave propagation in various types of media.
Wave Types and Speed
P.7B Investigate and analyze characteristics of waves including velocity, frequency, amplitude, wavelength and
Calculate wave speed using the relationships between wave speed, frequency, and wavelength.
Wave Behaviors
P.7D Investigate behaviors of waves including reflection, refraction, diffraction, interference, resonance, and the Doppler effect.
Unit: Optics
P.7E
Optics: Plane Mirrors & Convex Lens
P.7E Describe and predict image formation as a consequence of reflection from a plane mirror and
Describe and predict image formation as a consequence of refraction through a thin convex lens.
Unit: Modern Physics
P.8A, P.8B, P.8C, P.8D, P.5A
Quantum Physics: Light
P.8A Describe the photoelectric effect and the dual nature of light.
P.8B Compare and explain the emission spectra produced by various atoms.
Mass-Energy Equivalence
P.8C Calculate and describe the applications of mass-energy equivalence.
P.5A Describe the concepts of weak and strong nuclear forces.
Applications of Modern Physics
P.8D Give examples of applications of atomic and nuclear phenomena using the standard model such as nuclear stability, fission and fusion, radiation therapy, diagnostic imaging, semiconductors, superconductors, solar cells, and nuclear power and examples of applications of quantum phenomena.