An amusement park ride consists of a large vertical cylinder that spins about its axis fast...
An amusement park ride consists of a large vertical cylinder that spins about its axis fast enough that any person inside is held up against the wall when the floor drops away. If the coefficient of static friction between the person and the wall is 0.563 and the radius of the cylinder is 8.87 m, what is the minimum tangential speed necessary to keep a person from falling? ____ m/s What is the maximum period of rotation to keep a persn from falling? ____ s
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An amusement park ride consists of a large vertical cylinder
that spins about its axis fast...
An amusement park ride consists of a large vertical cylinder that spins about its axis fast...
An amusement park ride consists of a large vertical cylinder that spins about its axis fast enough that a person inside is stuck to the wall and does not slide down when the floor drops away. The acceleration of gravity is 9.8 m/s 2 . Given g = 9.8 m/s 2 , the coefficient µ = 0.564 of static friction between a person and the wall, and the radius of the cylinder R = 4.9 m. For simplicity, neglect the...
An amusement park ride consists of a large vertical cylinder that spins about its axis fast...
An amusement park ride consists of a large vertical cylinder that spins about its axis fast enough that a person inside is stuck to the wall and does not slide down when the floor drops away. The acceleration of gravity is 9.8 m/s2. Given g = 9.8 m/s2, the coefficient μ = 0.569 of static friction between a person and the wall, and the radius of the cylinder R = 5.4 m. For simplicity, neglect the person’s depth and assume...
001 (part 1 of 2) 10.0 points An amusement park ride consists of a large vertical...
001 (part 1 of 2) 10.0 points An amusement park ride consists of a large vertical cylinder that spins about enough that any person inside is held up against the wall when the floor drops away its axis fast 6.87 m What is the minimum angular velocity wmin needed to keep the person from slipping downward? The acceleration due to gravity is 9.8 m/s2, the coefficient of static friction be- tween the person and the wall is 0.77, and the...
11. “The Rotor”. The amusement park ride known as “the rotor”, essentially a large hollow cylinder,...
11. “The Rotor”. The amusement park ride known as “the rotor”, essentially a large hollow cylinder, rotates rapidly about a central axis. Riders stand on the floor up against the wall of this ride before it begins to rotate. Once the ride starts, all riders, the wall, and floor begin to rotate rapidly and undergo uniform circular motion. When the rotation speeds reaches a certain value, the floors fall away and the riders are held pinned against the wall where...
An amusement park ride has a vertical cylinder with an inner radius of 4 m, which...
An amusement park ride has a vertical cylinder with an inner radius of 4 m, which rotates about its vertical axis. Riders stand inside against the carpeted surface and rotate with the cylinder while it accelerates to its full angular velocity. At that point the floor drops away and friction between the riders and the cylinder prevents them from sliding downward. The coefficient of static friction between the riders and the cylinder is 0.91. What minimum angular velocity in radians/second...
An amusement park ride consists of a rotating vertical cylinder with rough canvas walls. The floor...
An amusement park ride consists of a rotating vertical cylinder
with rough canvas walls. The floor is initially about halfway up
the cylinder wall as shown. After the rider has entered and the
cylinder is rotating sufficiently fast, the floor is dropped down,
, yet the rider does not slide down. The rider has mass of 50 kg.
The diameter of the cylinder is 6.5 meters. The coefficient of
static friction between the rider and wall of the cylinder is...
A certain ride at an amusement park consists of a hollow cylinder that can rotate at...
A certain ride at an amusement park consists of a hollow cylinder that can rotate at high speeds. The floor can then be dropped with the people staying pinned to the sides of the cylinder. Terry the Mighty Iguana climbs inside the cylinder and the ride operator turns it on. The cylinder has a radius of 6 meters and a coefficient of friction between the cylinder wall and the Terry is u=0.67 a. how much friction is required to keep...
Instructions. For each question, show all work leading to an answer and simplify as much as...
Instructions. For each question, show all work leading to an answer and simplify as much as reasonably possible. 1. An amusement-park ride consists of a large vertical cylinder of radius R. The cylinder spins about its axis fast enough such that any person inside is pinned against the wall when the floor drops away. Let p, be the coefficient of static friction between person and wall. Find the minimum speed that the cylinder wall must have to keep a person...
There is a classic amusement park ride where people stand with their backs pressed against the...
There is a classic amusement park ride where people stand with their backs pressed against the side of a large cylinder that will rotate around, moving faster and faster. Eventually, the cylinder is spinning fast enough that the floor can drop away and the force from the wall on the people is large enough to hold them up (so they do not slip downward on the wall, even when the floor drops away and their feet no longer are toughing...
1. In a popular amusement park ride, a cylinder of radius 3.0 meters is set in...
1. In a popular amusement park ride, a cylinder of radius 3.0 meters is set in motion at an angular speed of 5.0 rad/s. The floor then drops away leaving the riders "stuck" to the wall in a vertical position. What minimum coefficient of friction between the riders clothing and wall of the cylinder is needed to keep the rider from slipping?
001 (part 1 of 2) 10.0 points An amusement park ride consists of a large vertical cylinder that spins about enough that any person inside is held up against the wall when the floor drops away its axis fast 6.87 m What is the minimum angular velocity wmin needed to keep the person from slipping downward? The acceleration due to gravity is 9.8 m/s2, the coefficient of static friction be- tween the person and the wall is 0.77, and the...
An amusement park ride consists of a rotating vertical cylinder
with rough canvas walls. The floor is initially about halfway up
the cylinder wall as shown. After the rider has entered and the
cylinder is rotating sufficiently fast, the floor is dropped down,
, yet the rider does not slide down. The rider has mass of 50 kg.
The diameter of the cylinder is 6.5 meters. The coefficient of
static friction between the rider and wall of the cylinder is...
Instructions. For each question, show all work leading to an answer and simplify as much as reasonably possible. 1. An amusement-park ride consists of a large vertical cylinder of radius R. The cylinder spins about its axis fast enough such that any person inside is pinned against the wall when the floor drops away. Let p, be the coefficient of static friction between person and wall. Find the minimum speed that the cylinder wall must have to keep a person...
There is a classic amusement park ride where people stand with their backs pressed against the side of a large cylinder that will rotate around, moving faster and faster. Eventually, the cylinder is spinning fast enough that the floor can drop away and the force from the wall on the people is large enough to hold them up (so they do not slip downward on the wall, even when the floor drops away and their feet no longer are toughing...
1. In a popular amusement park ride, a cylinder of radius 3.0 meters is set in motion at an angular speed of 5.0 rad/s. The floor then drops away leaving the riders "stuck" to the wall in a vertical position. What minimum coefficient of friction between the riders clothing and wall of the cylinder is needed to keep the rider from slipping?
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