PS.M: Study of Matter

PS.M.1: Classification of matter

PS.M.1.3: States of matter and its changes

 Phase Changes

PS.M.2: Atoms

PS.M.2.1: Models of the atom (components)

 Bohr Model of Hydrogen
 Bohr Model: Introduction
 Element Builder

PS.M.3: Periodic trends of the elements

PS.M.3.1: Periodic law

 Electron Configuration

PS.M.3.2: Representative groups

 Electron Configuration
 Ionic Bonds

PS.M.4: Bonding and compounds

PS.M.4.1: Bonding (ionic and covalent)

 Covalent Bonds
 Ionic Bonds

PS.M.5: Reactions of matter

PS.M.5.1: Chemical reactions

 Chemical Changes
 Chemical Equations
 Equilibrium and Concentration

PS.M.5.2: Nuclear reactions

 Nuclear Decay

PS.EW: Energy and Waves

PS.EW.1: Conservation of energy

PS.EW.1.1: Quantifying kinetic energy

 Air Track
 Inclined Plane - Sliding Objects
 Roller Coaster Physics

PS.EW.1.2: Quantifying gravitational potential energy

 Inclined Plane - Sliding Objects
 Roller Coaster Physics

PS.EW.1.3: Energy is relative

 Air Track
 Energy Conversion in a System
 Energy of a Pendulum
 Inclined Plane - Sliding Objects
 Roller Coaster Physics

PS.EW.2: Transfer and transformation of energy (including work)

 2D Collisions
 Energy Conversion in a System
 Inclined Plane - Sliding Objects
 Pulley Lab

PS.EW.3: Waves

PS.EW.3.1: Refraction, reflection, diffraction, absorption, superposition

 Basic Prism
 Herschel Experiment
 Refraction
 Ripple Tank
 Sound Beats and Sine Waves

PS.EW.3.2: Radiant energy and the electromagnetic spectrum

 Seasons Around the World

PS.EW.3.3: Doppler shift

 Doppler Shift
 Doppler Shift Advanced

PS.EW.4: Thermal energy

 Energy Conversion in a System
 Temperature and Particle Motion

PS.EW.5: Electricity

PS.EW.5.1: Movement of electrons

 Electromagnetic Induction

PS.EW.5.2: Current

 Electromagnetic Induction

PS.FM: Forces and Motion

PS.FM.1: Motion

PS.FM.1.1: Introduction to one-dimensional vectors

 Golf Range
 Shoot the Monkey

PS.FM.1.2: Displacement, velocity (constant, average and instantaneous) and acceleration

 Distance-Time and Velocity-Time Graphs
 Free-Fall Laboratory
 Golf Range
 Shoot the Monkey

PS.FM.1.3: Interpreting position vs. time and velocity vs. time graphs

 Distance-Time Graphs
 Distance-Time and Velocity-Time Graphs
 Free-Fall Laboratory

PS.FM.2: Forces

PS.FM.2.2: Types of forces (gravity, friction, normal, tension)

 Gravitational Force
 Pith Ball Lab

PS.FM.3: Dynamics (how forces affect motion)

PS.FM.3.3: Accelerating objects

 Atwood Machine
 Fan Cart Physics
 Free-Fall Laboratory

Correlation last revised: 1/20/2017

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