Question #6 Height of the first hillDEh₂= height of hill 2he height of Vertical loopam = mass of CartKE= Highest Kinetic EnergyPE=Highest Potential EnergyKE - lowest Kinetic EnergyPE= lowest Potential EnergyShape of the first hill-□L= Length of the track = distance of track□h= height of hill 1The exit pathPETKEHeight of the second hilld=Ldistance/Length (m)m=300 kgThe loopaxis 5. Gravitational Potential Energy at the beginning of your ride6. Kinetic Energy at the end of your roller coaster (use your speed from #4 as your velocity)

Solution: 5. The gravitational potential energy is given the following equation, U=mghHere, m-mass…

Answered: 5. Gravitational Potential Energy at…

5. Gravitational Potential Energy at the beginning of your ride 6. Kinetic Energy at the end of your roller coaster (use your speed from #4 as your velocity)

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Question

Question #6

Height of the first hill
DE
h₂= height of hill 2
he height of Vertical loop
am = mass of Cart
KE= Highest Kinetic Energy
PE=Highest Potential Energy
KE - lowest Kinetic Energy
PE= lowest Potential Energy
Shape of the first hill-
□L= Length of the track = distance of track
□h= height of hill 1
The exit path
PET
KE
Height of the second hill
d=L
distance/Length (m)
m=300 kg
The loop
axis

5. Gravitational Potential Energy at the beginning of your ride
6. Kinetic Energy at the end of your roller coaster (use your speed from #4 as your velocity)

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