Question:

Describe how the Energy Bar and Pie Charts relate to position and speed. Energy Graph Position Speed Stick to Track - 1500 Energ

Describe how the Energy Bar and Pie Charts relate to position and speed.
Energy Graph
Position
Speed
Stick to Track
-
1500
Energy
Kinetie.
Potential
Thermal
Total
Friction
Le
Gravity
Position (m)
200
La
Mass
Speed
1.9 m/s
Gna
Reference Height ...
Normal
Slow
Restart Skate
Energy Skate Park
PHET:
Speed
Energy
Kinetic
Potential
Thermal
Total
Pie Chart
Speed
Stick to Track
9.0 m/s
Lot
Energy
Kinetic 5623
Potential 4340.43
Thermal 0.03
Total 4396.73
Friction
None
Height 5.91 m
Speed 1.22 m/s
Gravity
200
Mass
900
Height
Normal
Restart Skater
Grid
Reference Height
Energy Skate Park
PHIET:
Measure
Grohe
Perground

Describe how the Energy Bar and Pie Charts relate to position and speed. Energy Graph Position Speed Stick to Track - 1500 Energy Kinetie. Potential Thermal Total Friction Le Gravity Position (m) 200 La Mass Speed 1.9 m/s Gna Reference Height ... Normal Slow Restart Skate Energy Skate Park PHET: Speed Energy Kinetic Potential Thermal Total Pie Chart Speed Stick to Track 9.0 m/s Lot Energy Kinetic 5623 Potential 4340.43 Thermal 0.03 Total 4396.73 Friction None Height 5.91 m Speed 1.22 m/s Gravity 200 Mass 900 Height Normal Restart Skater Grid Reference Height Energy Skate Park PHIET: Measure Grohe Perground

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