1. A Roller Coaster showing in the picture bellow of mass of M = 144 Kg is moving through the 3 hills until the end of the rid. if the first hill has Hight of H1=20 m and the second hill H2 = 16 m. The speed at top of the Third hill is v=14.683323874382 m/s. calculate the following: First Scale 1.0 cm-3.0m Second hill a) Potential energy at the maximum height (first hill) in (J) b) The Kinetic Energy in the second hill :: c) The hight of the third hill (m) :: Third d) The velocity of the car at the end of the rid :: (e) Total energy of the system at the end of the hall (J) : End of ride
1. A Roller Coaster showing in the picture bellow of mass of M = 144 Kg is moving through the 3 hills until the end of the rid. if the first hill has Hight of H1=20 m and the second hill H2 = 16 m. The speed at top of the Third hill is v=14.683323874382 m/s. calculate the following: First Scale 1.0 cm-3.0m Second hill a) Potential energy at the maximum height (first hill) in (J) b) The Kinetic Energy in the second hill :: c) The hight of the third hill (m) :: Third d) The velocity of the car at the end of the rid :: (e) Total energy of the system at the end of the hall (J) : End of ride
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter7: Rotational Motion And Gravitation
Section: Chapter Questions
Problem 5CQ: A pendulum consists of a small object called a bob hanging from a light cord of fixed length, with...
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![1. A Roller Coaster showing in the picture bellow of mass of M = 144 Kg is moving
through the 3 hills until the end of the rid. if the first hill has Hight of H1=20 m and
the second hill H2 = 16 m. The speed at top of the Third hill
is v=14.683323874382
m/s. calculate the following:
First
hill
Scale
1.0 cm - 3.0 m
Second
hill
a) Potential energy at the maximum height (first hill) in (J) :
b) The Kinetic Energy in the second hill ::
Third
hill
c) The hight of the third hill (m) : :
d) The velocity of the car at the end of the rid ::
(e) Total energy of the system at the end of the hall (J) :
End of
ride](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F73dca0e0-bae2-4836-8645-c10bdc891cf9%2F8475d163-586d-4935-9efa-17ed67d49a81%2F2er2rus_processed.png&w=3840&q=75)
Transcribed Image Text:1. A Roller Coaster showing in the picture bellow of mass of M = 144 Kg is moving
through the 3 hills until the end of the rid. if the first hill has Hight of H1=20 m and
the second hill H2 = 16 m. The speed at top of the Third hill
is v=14.683323874382
m/s. calculate the following:
First
hill
Scale
1.0 cm - 3.0 m
Second
hill
a) Potential energy at the maximum height (first hill) in (J) :
b) The Kinetic Energy in the second hill ::
Third
hill
c) The hight of the third hill (m) : :
d) The velocity of the car at the end of the rid ::
(e) Total energy of the system at the end of the hall (J) :
End of
ride
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