This resource provides flexible alternate or additional learning activities for students learning about the gravitational attraction between objects of different masses at different distances. IPC TEKS (4)(F)

This resources allows students to explore the postulates of the Kinetic Molecular Theory in order to better understand why gas particles behave the way that they do.  

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, illustrations, scenarios, or relevant data, students will calculate the power of a physical system.

Given diagrams, illustrations or relevant data, students will identify examples of kinetic and potential energy and their transformations.

Using diagrams, illustrations, and relevant data, students will calculate the net work done on an object, the change in an object's velocity, and the change in an object's kinetic energy.

Given descriptions, diagrams, scenarios, or chemical symbols, students will model covalent bonds using electron dot formula (Lewis structures).

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.

In this video, we apply the three primary kinematic equations to projectile motion problems.

In this video, the inherent (classical) relativity of velocity measurements is explored, qualitatively and quantitatively, in both one and two dimensions.

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.