Direction Inertia Kinetic Energy Wedge Conservation Lever Potential Energy Indirectly Proportional Effort Velocity Green Energy Reference Point Mechanical Energy Machine Work Change in Position over Time Time Negative Acceleration (Deceleration) Threads Balanced Forces Light Generator Balanced Force Mechanical Energy Applied Force Constant Speed Pulley Screw Oppose Mechanical Advantage Motion Pivot Mass Friction Electrical Energy Transfer of Energy Mechanical Transfer Fulcrum Energy Graph Newton’s Laws of Motion Direction Electricity Conservation of Energy Simple Machines Inclined plane Resist Battery Distance Wheel and Axel Work Slope Efficiency Mechanical Advantage Potential Energy Electromagnetic Transfer Acceleration Compound Machine Positive Acceleration Electrical Transfer Distance Verses Time Speed Reference Point Sound Circuit Kinetic Energy Energy Transfer Gravity Magnetic Speed Average Speed Efficiency Unbalanced Force Thermal Transfer Axis Directly Proportional Force Direction Inertia Kinetic Energy Wedge Conservation Lever Potential Energy Indirectly Proportional Effort Velocity Green Energy Reference Point Mechanical Energy Machine Work Change in Position over Time Time Negative Acceleration (Deceleration) Threads Balanced Forces Light Generator Balanced Force Mechanical Energy Applied Force Constant Speed Pulley Screw Oppose Mechanical Advantage Motion Pivot Mass Friction Electrical Energy Transfer of Energy Mechanical Transfer Fulcrum Energy Graph Newton’s Laws of Motion Direction Electricity Conservation of Energy Simple Machines Inclined plane Resist Battery Distance Wheel and Axel Work Slope Efficiency Mechanical Advantage Potential Energy Electromagnetic Transfer Acceleration Compound Machine Positive Acceleration Electrical Transfer Distance Verses Time Speed Reference Point Sound Circuit Kinetic Energy Energy Transfer Gravity Magnetic Speed Average Speed Efficiency Unbalanced Force Thermal Transfer Axis Directly Proportional Force
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Direction
Inertia
Kinetic Energy
Wedge
Conservation
Lever
Potential Energy
Indirectly Proportional
Effort
Velocity
Green Energy
Reference Point
Mechanical Energy
Machine
Work
Change in Position over Time
Time
Negative Acceleration (Deceleration)
Threads
Balanced Forces
Light
Generator
Balanced Force
Mechanical Energy
Applied Force
Constant Speed
Pulley
Screw
Oppose
Mechanical Advantage
Motion
Pivot
Mass Friction
Electrical Energy
Transfer of Energy
Mechanical Transfer
Fulcrum
Energy
Graph
Newton’s Laws of Motion
Direction
Electricity
Conservation of Energy
Simple Machines
Inclined plane
Resist
Battery
Distance
Wheel and Axel
Work
Slope
Efficiency
Mechanical Advantage
Potential Energy
Electromagnetic Transfer
Acceleration
Compound Machine
Positive Acceleration
Electrical Transfer
Distance Verses Time
Speed
Reference Point
Sound
Circuit
Kinetic Energy
Energy Transfer
Gravity
Magnetic
Speed
Average Speed
Efficiency
Unbalanced Force
Thermal Transfer
Axis
Directly Proportional
Force
