9P.2: Physical Science

9P.2.2: Motion

9P.2.2.1: Forces and inertia determine the motion of objects.

9P.2.2.1.1: Use vectors and free-body diagrams to describe force, position, velocity and acceleration of objects in two-dimensional space.

 Golf Range
 Shoot the Monkey
 Uniform Circular Motion

9P.2.2.1.2: Apply Newton?s three laws of motion to calculate and analyze the effect of forces and momentum on motion.

 2D Collisions
 Air Track
 Atwood Machine
 Fan Cart Physics

9P.2.2.2: When objects change their motion or interact with other objects in the absence of frictional forces, the total amount of mechanical energy remains constant.

9P.2.2.2.1: Explain and calculate the work, power, potential energy and kinetic energy involved in objects moving under the influence of gravity and other mechanical forces.

 Air Track
 Energy of a Pendulum
 Inclined Plane - Sliding Objects
 Potential Energy on Shelves
 Pulley Lab
 Roller Coaster Physics

9P.2.2.2.3: Use conservation of momentum and conservation of energy to analyze an elastic collision of two solid objects in one-dimensional motion.

 Air Track

9P.2.3: Energy

9P.2.3.1: Sound waves are generated from mechanical oscillations of objects and travel through a medium.

9P.2.3.1.2: Describe how vibration of physical objects sets up transverse and/or longitudinal waves in gases, liquids and solid materials.

 Longitudinal Waves

9P.2.3.1.3: Explain how interference, resonance, refraction and reflection affect sound waves.

 Longitudinal Waves
 Ripple Tank
 Sound Beats and Sine Waves

9P.2.3.1.4: Describe the Doppler effect changes that occur in an observed sound as a result of the motion of a source of the sound relative to a receiver.

 Doppler Shift
 Doppler Shift Advanced

9P.2.3.2: Electrons respond to electric fields and voltages by moving through electrical circuits and this motion generates magnetic fields.

9P.2.3.2.2: Explain and calculate the relationship of current, voltage, resistance and power in series and parallel circuits.

 Circuit Builder
 Circuits

9P.2.3.2.3: Describe how moving electric charges produce magnetic forces and moving magnets produce electric forces.

 Electromagnetic Induction
 Magnetic Induction

9P.2.3.2.4: Use the interplay of electric and magnetic forces to explain how motors, generators, and transformers work.

 Electromagnetic Induction

9P.2.3.3: Magnetic and electric fields interact to produce electromagnetic waves.

9P.2.3.3.3: Explain the refraction and/or total internal reflection of light in transparent media, such as lenses and optical fibers.

 Basic Prism
 Refraction

9P.2.3.3.4: Use properties of light, including reflection, refraction, interference, Doppler effect and the photoelectric effect, to explain phenomena and describe applications.

 Basic Prism
 Doppler Shift
 Doppler Shift Advanced
 Photoelectric Effect
 Refraction
 Ripple Tank

9P.2.3.3.5: Compare the wave model and particle model in explaining properties of light.

 Photoelectric Effect

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.