Part 2 Friction and thermal energy (with friction) 9. List your measurement for height of the highest point reached on the left side. Compare yaciro with y from Part 1. Explain any difference. 12. How much energy does the system have at the end, when the skater has just stopped? What type of energy? Identify the kind(s) of changes in energy that occurred during the skate. Point Highest point reached on the left side | Height above |reference height, m 3.2 The yea from Part 1 was 6.0 m and no friction in the simulation. 10. Insert the screenshot showing the skater reached the highest point on the left side after you placed her on the highest point of the right side of the track and released her. The reading on the measuring tape and the Energy diagram should be visible on your screenshot. Energy OPe Chart Speed O P R Tac 01 mis Friction Gravity

Part 2 Friction and thermal energy (with friction) 9. List your measurement for height of the highest point reached on the left side. Compare yaciro with y from Part 1. Explain any difference. 12. How much energy does the system have at the end, when the skater has just stopped? What type of energy? Identify the kind(s) of changes in energy that occurred during the skate. Point Highest point reached on the left side | Height above |reference height, m 3.2 The yea from Part 1 was 6.0 m and no friction in the simulation. 10. Insert the screenshot showing the skater reached the highest point on the left side after you placed her on the highest point of the right side of the track and released her. The reading on the measuring tape and the Energy diagram should be visible on your screenshot. Energy OPe Chart Speed O P R Tac 01 mis Friction Gravity

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Question

May I have help on question 11 and 12?

Part 2 Friction and thermal energy (with friction)
9. List your measurement for height of the highest point reached on the left side. Compare yacto
with yanal from Part 1. Explain any difference.
12. How much energy does the system have at the end, when the skater has just stopped? What
type of energy? Identify the kind(s) of changes in energy that occurred during the skate.
Point
Height above
reference height, m
Highest point reached on the left side
3.2
The yi from Part 1 was 6.0 m and no friction in the simulation.
10. Insert the screenshot showing the skater reached the highest point on the left side after you
placed her on the highest point of the right side of the track and released her. The reading on
the measuring tape and the Energy diagram should be visible on your screenshot.
O Energy
O Pie Chart
R Speed
Speed
O Path
E Sick to Track
0.1 m/s
Friction
None
Gravity
Lot
Mass
Grid
Normal
Retat at O
Reference Height
Slow
11. Use conservation of energy to determine the amount of change in internal energy (or thermal
energy) for the system with the skater at the highest position reached on the left side
Potential energy, J Kinetic energy, J
Thermal energy, J Total energy. J
Initial,
point A
highest
position
reached on
the left side

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