Given diagrams, illustrations, or descriptions, students will identify examples of electric and magnetic forces.

Students will distinguish between and/or interpret the types of motion.

This resource provides instructional resources for Newton's First Law, the law of inertia.

This resource is to support TEKS (8)(6)(C), specifically the Newton's third law or the law of action-reaction.

Given diagrams, scenarios, or illustrations, students will identify the characteristics of the Doppler effect.

Given diagrams, scenarios, illustrations, or descriptions, students will identify uses of waves in medical and industrial applications.

Given schematic diagrams, illustrations or descriptions, students will identify the relationship of electric and magnetic fields in applications such as generators, motors, and transformers.

Given diagrams, descriptions or illustrations, students will determine the properties of wave motion and wave propagation as they pass through different media.

In this video, we explore the two fundamental categories of waves and give physical examples of each.

In this video, we define the fundamental quantities associated with waves, including frequency, period, amplitude, and speed.

In this video, we explore how the mathematics and concepts of waves apply to a specific type of wave: sound.

In this video, we explore the Doppler effect, which modulates the perceived frequency of waves depending on the relative motion between source and observer.

In this video, we explore how the mathematics and concepts of waves apply in the everyday world.

In this video, we define electric charge, conductors, and insulators.

In this video, we define Coulomb's law and examine the interaction between two stationary, charged particles.

In this video, we define the electric field and field line conventions.

In this video, we explore the difference between distance traveled (an example of a scalar) and displacement (an example of a vector), and we review some basic vector math.

In this video, we explore the difference between speed and velocity, and their relationship to distance and displacement.

In this video, we introduce the three primary kinematics equations and apply them to one-dimensional problems. The term "acceleration" is also introduced.

In this video, we analyze hypothetical experiments by graphing position, velocity, and acceleration versus time, qualitatively.