loop BCB. Determine the speed at B so that the car just makes The 200 kg roller coaster car shown is accelerated uniformly from rest at A until it reaches its maximum speed at Bafter 4 seconds, at which point it begins to travel freely along the spiral constant horizontal force F needed to give the car the necessary he loop without falling off the track. Also, compute the acceleration from A to B. The radius of curvature at C is Te = 20m Determine the maximum height h to the top of the Incline D to which the 200 kg roller coaster car will reach. D.
loop BCB. Determine the speed at B so that the car just makes The 200 kg roller coaster car shown is accelerated uniformly from rest at A until it reaches its maximum speed at Bafter 4 seconds, at which point it begins to travel freely along the spiral constant horizontal force F needed to give the car the necessary he loop without falling off the track. Also, compute the acceleration from A to B. The radius of curvature at C is Te = 20m Determine the maximum height h to the top of the Incline D to which the 200 kg roller coaster car will reach. D.
Related questions
Question
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
Step by step
Solved in 3 steps