m = 325 kg h1 = 19.5 m h2 = 4.7 m A roller coaster car of mass m is rolling down the track, starting from rest, as shown in the figure. The initial height from the ground is h1 (Position-1), while the final height is h2 (Position-3). The system has no friction. What is the speed of the car when it reaches the bottom (Position-2) of the track.

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Chapter1: Units, Trigonometry. And Vectors
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m = 325 kg

h1 = 19.5 m

h2 = 4.7 m

A roller coaster car of mass m is rolling down the track, starting from rest, as shown in the figure. The initial height from the ground is h1 (Position-1), while the final height is h2 (Position-3). The system has no friction.


What is the speed of the car when it reaches the bottom (Position-2) of the track.

Initial
Height
m =
325 kg
h₁ = 19.5 m
Car mass, with passengers = m
No friction.
2
Bottom
3
Final
Height
h₂
h2 = 4.7 m
A roller coaster car of mass m is rolling down the track, starting from rest, as shown in the figure. The initial height from the ground is h1 (Position-1),
while the final height is h2 (Position-3). The system has no friction.
What is the speed of the car when it reaches the bottom (Position-2) of the track.
Transcribed Image Text:Initial Height m = 325 kg h₁ = 19.5 m Car mass, with passengers = m No friction. 2 Bottom 3 Final Height h₂ h2 = 4.7 m A roller coaster car of mass m is rolling down the track, starting from rest, as shown in the figure. The initial height from the ground is h1 (Position-1), while the final height is h2 (Position-3). The system has no friction. What is the speed of the car when it reaches the bottom (Position-2) of the track.
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