P.M: Motion

P.M.1: Motion Graphs

P.M.1.a: Position vs. time

Distance-Time Graphs - Metric
Distance-Time and Velocity-Time Graphs - Metric
Fan Cart Physics
Free-Fall Laboratory
Roller Coaster Physics

P.M.1.b: Velocity vs. time

Distance-Time and Velocity-Time Graphs - Metric
Fan Cart Physics
Free-Fall Laboratory
Roller Coaster Physics

P.M.1.c: Acceleration vs. time

Fan Cart Physics
Free-Fall Laboratory

P.M.2: Problem Solving

P.M.2.a: Using graphs (average velocity, instantaneous velocity, acceleration, displacement, change in velocity)

Determining a Spring Constant
Free-Fall Laboratory

P.M.2.b: Uniform acceleration including free fall (initial velocity, final velocity, time, displacement, acceleration, average velocity)

Free-Fall Laboratory
Golf Range
Shoot the Monkey

P.M.3: Projectile Motion

P.M.3.a: Independence of horizontal and vertical motion

Golf Range
Shoot the Monkey

P.M.3.b: Problem-solving involving horizontally launched projectiles

Golf Range
Shoot the Monkey

P.F: Momentum and Motion

P.F.1: Newton’s laws applied to complex problems

Atwood Machine
Fan Cart Physics

P.F.2: Gravitational force and fields

Gravitational Force
Pith Ball Lab

P.F.3: Elastic forces

Determining a Spring Constant

P.F.4: Friction force (static and kinetic)

Inclined Plane - Sliding Objects
Roller Coaster Physics

P.F.5: Air resistance and drag

Free-Fall Laboratory

P.F.6: Forces in two dimensions

P.F.6.a: Adding vector forces

Adding Vectors
Vectors

P.F.6.b: Motion down inclines

Inclined Plane - Rolling Objects
Inclined Plane - Sliding Objects
Roller Coaster Physics

P.F.6.c: Centripetal forces and circular motion

Uniform Circular Motion

P.F.7: Momentum, impulse and conservation of momentum

2D Collisions
Air Track
Roller Coaster Physics

P.E: Energy

P.E.1: Gravitational potential energy

Energy of a Pendulum
Inclined Plane - Sliding Objects
Potential Energy on Shelves
Roller Coaster Physics

P.E.3: Work and power

Pulley Lab

P.E.4: Conservation of energy

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

P.E.5: Nuclear energy

Nuclear Decay
Nuclear Reactions

P.W: Waves

P.W.1: Wave properties

P.W.1.b: Reflection

Laser Reflection

P.W.1.c: Refraction

Basic Prism
Refraction

P.W.1.d: Interference

Ripple Tank
Sound Beats and Sine Waves

P.W.1.e: Diffraction

Ripple Tank

P.W.2: Light phenomena

P.W.2.a: Ray diagrams (propagation of light)

Ray Tracing (Lenses)
Ray Tracing (Mirrors)

P.W.2.b: Law of reflection (equal angles)

Laser Reflection

P.W.2.c: Snell’s law

Basic Prism
Refraction

P.W.2.d: Diffraction patterns

Ripple Tank

P.W.2.e: Wave—particle duality of light

Photoelectric Effect

P.W.2.f: Visible spectrum of color

Herschel Experiment - Metric

P.EM: Electricity and Magnetism

P.EM.1: Charging objects (friction, contact and induction)

Pith Ball Lab

P.EM.2: Coulomb’s law

Coulomb Force (Static)
Pith Ball Lab

P.EM.3: Electric fields and electric potential energy

Electromagnetic Induction

P.EM.4: DC circuits

P.EM.4.a: Ohm’s law

Advanced Circuits
Circuits

P.EM.4.b: Series circuits

Advanced Circuits
Circuit Builder
Circuits

P.EM.4.c: Parallel circuits

Advanced Circuits
Circuit Builder
Circuits

P.EM.4.d: Mixed circuits

Advanced Circuits
Circuit Builder
Circuits

P.EM.4.e: Applying conservation of charge and energy (junction and loop rules)

Advanced Circuits
Circuits

P.EM.5: Magnetic fields

Magnetic Induction
Magnetism

P.EM.6: Electromagnetic interactions

Electromagnetic Induction
Magnetic Induction

Correlation last revised: 9/24/2019

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