A roller coaster has a “hump” and a “loop” for riders to enjoy (see picture). The...
A roller coaster has a “hump” and a “loop” for riders to enjoy (see picture). The top of the hump has a radius of curvature of 12 m and the loop has a radius of curvature of 15 m. (a) When going over the hump, the coaster is traveling with a speed of 9.0 m/s. A 100-kg rider is traveling on the coaster. What is the normal force of the rider’s seat on the rider when he is at the peak of the hump? Compare this with the normal force he would experience when the coaster is at rest. (b) What is the minimum speed the coaster must have at the top of the loop in order for the rider to remain in contact with his seat? Is this speed dependent on the mass of the rider?
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A roller coaster has a “hump” and a “loop” for riders to enjoy
(see picture). The...
12. ** A vertical loop in a roller coaster has a radius of curvature of 20...
12. ** A vertical loop in a roller coaster has a radius of curvature of 20 met would riders need to be strapped in to prevent folli what speed at the top of the loop would riders need to be strapped out? (Note for future roller coaster engineers: it's probably still a safety straps or restraints even above this speed.) it's probably still a good idea to have
A student with mass 58.0 kg rides on a roller coaster with a vertical loop. At...
A student with mass 58.0 kg rides on a roller coaster with a vertical loop. At the top of the loop the track has a radius of 19.7 m and the roller coaster moves at speed of 21.9 m/s at the top. Determine the normal force from the seat on the student at the top of the loop. Give your answer in newtons (N) and with 3 significant figures.
5. The Raptor is an outside loop roller coaster in which riders are belted into seats...
5. The Raptor is an outside loop roller coaster in which riders are belted into seats resembling ski-lift chairs. If the cars travel at v. = 55m/s when they are at the top of the hill, determine their speed when they are at the top of the loop and the reaction of the 250-kg passenger on his seat at this instant. The car has a mass of 400 kg. Take h = 75 m, p= 12.5 m. Neglect friction and...
Part of a roller-coaster ride involves coasting down an incline and entering a loop 7.10 m...
Part of a roller-coaster ride involves coasting down an incline and entering a loop 7.10 m in diameter. For safety considerations, the roller coaster's speed at the top of the loop must be such that the force of the seat on a rider is equal in magnitude to the rider's weight. From what height above the bottom of the loop must the roller coaster descend to satisfy this requirement? m 1 -11 points SerCP8 7.P.019. My Notes Ask Your Teacher...
5. The picture shows the launch and first hills of a roller coaster. The cars are...
5. The picture shows the launch and first hills of a roller coaster. The cars are launched with some initial velocity, V, go down a hill of height h, = 4.36 m and over the first peak with height h2 = 6.77 m above the lowest point on the track. The shape of the first peak is a circle with a radius of R = 5.97 m. The ride is designed so that the riders feel weightless at the top...
Part of a roller coaster ride involves coasting down an incline and entering a loop 6.40...
Part of a roller coaster ride involves coasting down an incline and entering a loop 6.40 m in diameter. For safety considerations, the roller coaster's speed at the top of the loop must be such that the force of the seat on a rider is equal in magnitude to the rider's weight. From what height above the bottom of the loop must the roller coaster descend to satisfy this requirement?
Part of a roller-coaster ride involves coasting down an incline and entering a loop 8.60 m...
Part of a roller-coaster ride involves coasting down an incline and entering a loop 8.60 m in diameter. For safety considerations, the roller coaster's speed at the top of the loop must be such that the force of the seat on a rider is equal in magnitude to the rider's weight. From what height above the bottom of the loop must the roller coaster descend to satisfy this requirement? m
A student with a mass of m=60kg rides a roller coaster with a loop with a...
A student with a mass of m=60kg rides a roller coaster with a loop with a radius of curvature of r=6.0meters. What is the minimum speed the roller coaster can maintain and still make it all the way around the loop? (Other answers for similar problems solve using the law of conservation of energy. However, we have not learned that in our course yet, and have only reviewed uniform circular motion. Is there another way to solve this equation? does...
hi 5. The picture shows the launch and first hills of a roller coaster. The cars...
hi 5. The picture shows the launch and first hills of a roller coaster. The cars are launched with some initial velocity, vi go down a hill of height hy = 4.36 m and over the first peak with height hz = 6.77 m above the lowest point on the track. The shape of the first peak is a circle with a radius of R = 5.97 m. The ride is designed so that the riders feel weightless at the...
In order for the mass traveling around a circular roller coaster loop to stay on the...
In order for the mass traveling around a circular roller coaster loop to stay on the track at the top of the loop, what must the mass' minimum speed be at the top of the 10 m radius loop?
12. ** A vertical loop in a roller coaster has a radius of curvature of 20 met would riders need to be strapped in to prevent folli what speed at the top of the loop would riders need to be strapped out? (Note for future roller coaster engineers: it's probably still a safety straps or restraints even above this speed.) it's probably still a good idea to have
5. The Raptor is an outside loop roller coaster in which riders are belted into seats resembling ski-lift chairs. If the cars travel at v. = 55m/s when they are at the top of the hill, determine their speed when they are at the top of the loop and the reaction of the 250-kg passenger on his seat at this instant. The car has a mass of 400 kg. Take h = 75 m, p= 12.5 m. Neglect friction and...
Part of a roller-coaster ride involves coasting down an incline and entering a loop 7.10 m in diameter. For safety considerations, the roller coaster's speed at the top of the loop must be such that the force of the seat on a rider is equal in magnitude to the rider's weight. From what height above the bottom of the loop must the roller coaster descend to satisfy this requirement? m 1 -11 points SerCP8 7.P.019. My Notes Ask Your Teacher...
5. The picture shows the launch and first hills of a roller coaster. The cars are launched with some initial velocity, V, go down a hill of height h, = 4.36 m and over the first peak with height h2 = 6.77 m above the lowest point on the track. The shape of the first peak is a circle with a radius of R = 5.97 m. The ride is designed so that the riders feel weightless at the top...
Part of a roller coaster ride involves coasting down an incline and entering a loop 6.40 m in diameter. For safety considerations, the roller coaster's speed at the top of the loop must be such that the force of the seat on a rider is equal in magnitude to the rider's weight. From what height above the bottom of the loop must the roller coaster descend to satisfy this requirement?
hi 5. The picture shows the launch and first hills of a roller coaster. The cars are launched with some initial velocity, vi go down a hill of height hy = 4.36 m and over the first peak with height hz = 6.77 m above the lowest point on the track. The shape of the first peak is a circle with a radius of R = 5.97 m. The ride is designed so that the riders feel weightless at the...
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