Devices | eTAP Lesson |
---|---|
Simple machines
ASVAB.MC.1.1 |
|
Complex machines
ASVAB.MC.1.2 |
Inventions |
Mechanical motion
ASVAB.MC.1.3 |
Gravitational Potential Energy Calculations |
Forces | eTAP Lesson |
Gravity
ASVAB.MC.2.1 |
Gravity and the Solar System |
Friction
ASVAB.MC.2.2 |
Friction and Other Forces |
Compression
ASVAB.MC.2.3 |
Converting Energy |
Tension
ASVAB.MC.2.4 |
How Atoms and Molecules Move in Liquid |
Amplification of forces
ASVAB.MC.2.5 |
Balanced Forces |
Structural support
ASVAB.MC.2.6 |
|
Energy | eTAP Lesson |
Kinetic energy
ASVAB.MC.3.1 |
Kinetic Energy Calculations |
Potential energy
ASVAB.MC.3.2 |
Problems with Various Sources of Potential Energy |
Electrical energy
ASVAB.MC.3.3 |
Electrical and Gravitational Potential Energy Problems |
Chemical energy
ASVAB.MC.3.4 |
Descriptions of Chemical Reactions and Writing Chemical Equations |
Solar energy
ASVAB.MC.3.5 |
Solar Energy |
Nuclear energy
ASVAB.MC.3.6 |
Energy Release in Nuclear Fusion |
Work and Power | eTAP Lesson |
Work
ASVAB.MC.4.1 |
Heat Flow and Work |
Power
ASVAB.MC.4.2 |
Energy from Fuel |
Materials | eTAP Lesson |
Heat conduction
ASVAB.MC.5.1 |
Heat Flow in Solids |
Flexibility and malleability
ASVAB.MC.5.2 |
Covalent, Metallic or Ionic Bonds |
Fluid Dynamics | eTAP Lesson |
Water pressure
ASVAB.MC.6.1 |
Natural Energy and Material Resources |
Density and buoyancy
ASVAB.MC.6.2 |
A Ton of Feathers or a Ton of Bricks |
Air pressure
ASVAB.MC.6.3 |
Gas Pressure |
Ideal Gas Law
ASVAB.MC.6.4 |
Ideal Gas Law |
Flow rate
ASVAB.MC.6.5 |
Transporting Energy |