21st Century Science
SC.O.CP.2: Students will demonstrate knowledge, understanding and applications of scientific facts, concepts, principles, theories and models as delineated in the objectives. demonstrate an understanding of the interrelationships among physics, chemistry, biology, earth/environmental science and astronomy. apply knowledge, understanding and skills of science subject matter/concepts to daily life\experiences.
SC.O.CP.2.2: compare and contrast distance, velocity and acceleration of moving objects to describe accelerated and non-accelerated motions of a particle from textbook or lab collected data.
Distance-Time Graphs
Distance-Time and Velocity-Time Graphs
Fan Cart Physics
Force and Fan Carts
Freefall Laboratory
Inclined Plane - Sliding Objects
Roller Coaster Physics
Temperature and Particle Motion
Uniform Circular Motion
SC.O.CP.2.3: analyze the motion of a projectile.
SC.O.CP.2.4: illustrate forces acting on objects with free body diagrams.
Charge Launcher
Force and Fan Carts
Inclined Plane - Simple Machine
SC.O.CP.2.5: interpret Newton?s Laws in terms of natural phenomena.
2D Collisions
Atwood Machine
Fan Cart Physics
Force and Fan Carts
Uniform Circular Motion
SC.O.CP.2.6: compare and contrast kinetic and potential energies and recognize situations where mechanical energy is conserved.
Energy Conversion in a System
Energy Conversions
Energy of a Pendulum
Inclined Plane - Rolling Objects
Inclined Plane - Simple Machine
Inclined Plane - Sliding Objects
Period of a Pendulum
Roller Coaster Physics
Simple Harmonic Motion
SC.O.CP.2.7: deduce work, energy, power and efficiency in mechanical systems.
Inclined Plane - Simple Machine
SC.O.CP.2.8: analyze Archimedes? and Pascal?s principles to solve problems involving equilibrium and stability of floating systems.
Density Laboratory
Determining Density via Water Displacement
SC.O.CP.2.10: compare and contrast the common temperature scales, convert from one temperature scale to another and evaluate temperature in terms of kinetic energy.
Energy Conversions
Temperature and Particle Motion
SC.O.CP.2.11: apply the mechanism of heat transfer and relate to environmental and energy conservation issues.
SC.O.CP.2.13: compare and contrast sound and light waves using the concepts of reflection, refraction, and interference.
Heat Absorption
Laser Reflection
Longitudinal Waves
Ray Tracing (Lenses)
SC.O.CP.2.14: solve problems involving wave speed, frequency and wavelength; determine factors that affect the speed of sound; recognize that the speed of light is a constant.
Basic Prism
Earthquake - Determination of Epicenter
Refraction
SC.O.CP.2.16: compare the Doppler shift effect for sound and light and point out examples of its occurrences and applications.
Doppler Shift Advanced
Longitudinal Waves
Sound Beats and Sine Waves
SC.O.CP.2.17: diagram image location involving plane and spherical mirrors, concave and convex lenses.
Ray Tracing (Lenses)
Ray Tracing (Mirrors)
SC.O.CP.2.18: illustrate the applications of colored lights and pigments.
SC.O.CP.2.20: analyze simple direct current circuits using Ohm?s Law.
Correlation last revised: 5/31/2018