3.1: Biological Sciences

3.1.12.A5: Form and Function

3.1.12.A5.1: Analyze how structure is related to function at all levels of biological organization from molecules to organisms.

 Circulatory System
 Digestive System

3.1.12.A8: Unifying Themes

3.1.12.A8.1: Describe and interpret dynamic changes in stable systems.

 Diffusion
 Equilibrium and Concentration

3.1.12.C1: Natural Selection

3.1.12.C1.1: Analyze how natural selection leads to speciation.

 Evolution: Mutation and Selection
 Rainfall and Bird Beaks

3.2: Physical Sciences: Chemistry and Physics

3.2.12.A2: Structure of Matter

3.2.12.A2.3: Explain how light is absorbed or emitted by electron orbital transitions.

 Bohr Model of Hydrogen
 Bohr Model: Introduction
 Star Spectra

3.2.12.A5: Unifying Themes

3.2.12.A5.2: Predict the shift in equilibrium when a system is subjected to a stress.

 Diffusion
 Equilibrium and Concentration

3.2.12.B1: Force & Motion of Particles and Rigid Bodies

3.2.12.B1.1: Analyze the principles of rotational motion to solve problems relating to angular momentum and torque.

 Torque and Moment of Inertia

3.2.12.B2: Energy Storage and Transformations: Conservation Laws

3.2.12.B2.2: Demonstrate how the law of conservation of momentum and conservation of energy provide alternate approaches to predict and describe the motion of objects.

 2D Collisions
 Air Track
 Inclined Plane - Sliding Objects

3.2.12.B4: Electrical and Magnetic Energy

3.2.12.B4.1: Describe conceptually the attractive and repulsive forces between objects relative to their charges and the distance between them.

 Coulomb Force (Static)
 Gravitational Force
 Pith Ball Lab

3.2.12.B6: Unifying Themes

3.2.12.B6.1: Compare and contrast motions of objects using forces and conservation laws.

 2D Collisions
 Air Track
 Atwood Machine
 Energy Conversion in a System
 Energy of a Pendulum
 Free-Fall Laboratory
 Golf Range
 Inclined Plane - Simple Machine
 Inclined Plane - Sliding Objects
 Shoot the Monkey

3.3: Earth and Space Sciences

3.3.12.A1: Earth Features and the Processes that Change It

3.3.12.A1.2: Analyze the processes that cause the movement of material in the Earth’s systems.

 Carbon Cycle
 Cell Energy Cycle

3.3.12.A3: Earth’s History

3.3.12.A3.1: Describe the absolute and relative dating methods used to measure geologic time, such as index fossils, radioactive dating, law of superposition, and crosscutting relationships.

 Half-life

3.3.12.A6: Weather and Climate

3.3.12.A6.1: Explain how the unequal heating of the Earth’s surface leads to atmospheric global circulation changes, climate, local short term changes, and weather.

 Seasons Around the World
 Seasons in 3D

3.3.12.A7: Unifying Themes

3.3.12.A7.2: Infer how human activities may impact the natural course of Earth’s cycles.

 Carbon Cycle

3.3.12.A7.3: Summarize the use of data in understanding seismic events, meteorology, and geologic time.

 Earthquakes 1 - Recording Station

Correlation last revised: 1/19/2017

This correlation lists the recommended Gizmos for this state's curriculum standards. Click any Gizmo title below for more information.