Instructor PowerPoint slides for TEA AP Biology open-source instructional materials.

TEA AP Biology Textbook PDF

This resource provides alternative or additional tier-one learning options for students learning about heat transfer, Chemistry TEKS (11)(B).

This resource supports Chemistry TEKS (11)(A).

This resource, developed to support Chemistry TEKS (11)(D), provides alternative or additional tier-one learning options to help students understand the concept of specific heat capacity.

In this video, we will study the wave-like properties of light.

In this video, we will study the particle-like properties of light.

In this video, we will study the mole and its applications in chemical calculations.

In this video, we will calculate percent composition or mass percent and various applications.

In this video, we will learn the difference between an empirical and molecular formula and how to find them.

In this video, we will learn how to balance chemical equations using the law of conservation of matter.

In this video, we will apply stoichiometric concepts to balanced equations in order to determine mass relationships within reactions.

In this video, we will investigate limiting reactants and how they affect chemical reactions

Students will understand Bohr’s experimental design and conclusions that lead to the development of his model of the atom, as well as the limitations of his model.

Given illustrations or descriptions, students will predict the shape of molecules based upon the extent of the electron pair electrostatic repulsion.

Given scenarios or diagrams, students will describe the nature of metallic bonding and explain properties such as thermal and electrical conductivity, malleability, and ductility of metals.

Given descriptors, diagrams, and chemical symbols, students will use the periodic table to determine the electron configuration of neutral atoms.

Given descriptions, diagrams, or scenarios, students will write and name the chemical formulas of binary covalent compounds.

Given descriptions, diagrams, scenarios, or chemical symbols, students will model ionic bonds using electron dot formulas.

Given descriptions or chemical formula of a substance, students will use the concept of a mole to relate atomic mass to molar mass.