A space station shaped like a giant wheel has a radius of 127 m and a...
A space station shaped like a giant wheel has a radius of 127 m and a moment of inertia of 5.08 ✕ 108 kg · m2. A crew of 150 lives on the rim, and the station is rotating so that the crew experiences an apparent acceleration of 1g. When 100 people move to the center of the station for a union meeting, the angular speed changes. What apparent acceleration is experienced by the managers remaining at the rim? Assume that the average mass of each inhabitant is 65.0 kg.
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A space station shaped like a giant wheel has a radius of 127 m
and a...
A space station shaped like a giant wheel has a radius of 102 m and a...
A space station shaped like a giant wheel has a radius of 102 m and a moment of inertia of 4.95. 108 kg m2. A crew of 150 lives on the rim, and the station is rotating so that the crew experiences an apparent acceleration of 1g. When 100 people move to the center of the station for a union meeting, the angular speed changes. What apparent acceleration is experienced by the managers remaining at the rim? Assume that the...
A space station shaped like a giant wheel has a radius of 109 m and a...
A space station shaped like a giant wheel has a radius of 109 m and a moment of inertia of 4.96 times 10^8 kg. m^2. A crew of 150 lives on the rim, and the station is rotating so that the crew experiences an apparent acceleration of 1 g. When 100 people move to the center of the station for a union meeting, the angular speed changes. What apparent acceleration is experienced by the managers remaining at the rim? Assume...
A space station shaped like a giant wheel has a radius of 115 m and a...
A space station shaped like a giant wheel has a radius of 115 m and a of inertia of S.10 x 10 kg m2.A crew of 150 lives on the rim, and the station is rotating so station for a union meeting, the angular speed changes. What apparent ? Assume that the average mass of each inhabitant is 65.0 kg.
A space station is in the form of a rotating wheel with a radius of 500...
A space station is in the form of a rotating wheel with a radius of 500 m. The centripetal acceleration at the rim equals 2 times the acceleration of gravit the surface of the Earth. What is the angular speed in radians per second? How does this translate to revolutions per minute?
A bicycle wheel with a radius of 0.40 meters has a mass of 2.25 kg mostly...
A bicycle wheel with a radius of 0.40 meters has a mass of 2.25 kg mostly :concentrated near the rim. Treat the wheel as a ring of mass, I_ring = m r^2, rotating at 146 rpm (15.3 rad/s). Brakes on the rim slow the wheel to a stop at a constant angu acceleration. the angular acceleration, a, of the wheel if it is brought to rest in 5 seconds is the moment of inertia of the wheel, I, is closest...
A cylindrically shaped space station is rotating about the axis of the cylinder to create artificial...
A cylindrically shaped space station is rotating about the axis of the cylinder to create artificial gravity. The radius of the cylinder is 155 m. The moment of inertia of the station without people is 2.44 × 10^9 kg · m2. Suppose that 203 people, with an average mass of 71.0 kg each, live on this station. As they move radially from the outer surface of the cylinder toward the axis, the angular speed of the station changes. What is...
A bike wheel with radius 0.500 m is mounted on a stationary stand and is free...
A bike wheel with radius 0.500 m is mounted on a stationary stand and is free to rotate. A constant force of 16.0 N is applied tangent to the rim. What is the resulting angular acceleration of the wheel? (The wheel's moment of inertia is 0.625 kg m2.) O 25.6 rad 00 O 12.8 rad O 17.5 rad o o
PLEASE CIRCLE ANSWER AND UNITS Chapter 09, Problem 65 A cylindrically shaped space station is rotating...
PLEASE CIRCLE ANSWER AND UNITS
Chapter 09, Problem 65 A cylindrically shaped space station is rotating about the axis of the cylinder to create artificial gravity. The radius of the cylinder is 103 m. The moment of inertia of the station without people is 4.96 x 10" kg-m2. Suppose 142 people, with an average mass of 51.0 kg each, live on this station. As they move radially from the outer surface of the cylinder toward the axis, the angular speed...
A potter's wheel having a radius of 0.500 m and mass 45.0 kg is rotating freely...
A potter's wheel having a radius of 0.500 m and mass 45.0 kg is rotating freely at 50.0 rev/min in a clockwise direction. The potter can stop the wheel by pressing a wet rag against the outside rim of the wheel and exerting a radially inward force of 70.0 N. Since this force is in the radial direction, it alone cannot cause the wheel to slow its spinning. What can happen, however, is that a normal force can result from...
A space station is constructed in the shape of a hollow ring of mass 4.85 x...
A space station is constructed in the shape of a hollow ring of mass 4.85 x 104 kg. Members of the crew walk on a deck formed by the inner surface of the outer cylindrical wall of the ring, with radius 140 m. At rest when constructed, the ring is set rotating about its axis so that the people inside experience an effective free-fall acceleration equal to g. (See figure below.) The rotation is achieved by firing two small rockets...
A space station shaped like a giant wheel has a radius of 102 m and a moment of inertia of 4.95. 108 kg m2. A crew of 150 lives on the rim, and the station is rotating so that the crew experiences an apparent acceleration of 1g. When 100 people move to the center of the station for a union meeting, the angular speed changes. What apparent acceleration is experienced by the managers remaining at the rim? Assume that the...
A space station shaped like a giant wheel has a radius of 109 m and a moment of inertia of 4.96 times 10^8 kg. m^2. A crew of 150 lives on the rim, and the station is rotating so that the crew experiences an apparent acceleration of 1 g. When 100 people move to the center of the station for a union meeting, the angular speed changes. What apparent acceleration is experienced by the managers remaining at the rim? Assume...
A space station shaped like a giant wheel has a radius of 115 m and a of inertia of S.10 x 10 kg m2.A crew of 150 lives on the rim, and the station is rotating so station for a union meeting, the angular speed changes. What apparent ? Assume that the average mass of each inhabitant is 65.0 kg.
A bicycle wheel with a radius of 0.40 meters has a mass of 2.25 kg mostly :concentrated near the rim. Treat the wheel as a ring of mass, I_ring = m r^2, rotating at 146 rpm (15.3 rad/s). Brakes on the rim slow the wheel to a stop at a constant angu acceleration. the angular acceleration, a, of the wheel if it is brought to rest in 5 seconds is the moment of inertia of the wheel, I, is closest...
A bike wheel with radius 0.500 m is mounted on a stationary stand and is free to rotate. A constant force of 16.0 N is applied tangent to the rim. What is the resulting angular acceleration of the wheel? (The wheel's moment of inertia is 0.625 kg m2.) O 25.6 rad 00 O 12.8 rad O 17.5 rad o o
PLEASE CIRCLE ANSWER AND UNITS
Chapter 09, Problem 65 A cylindrically shaped space station is rotating about the axis of the cylinder to create artificial gravity. The radius of the cylinder is 103 m. The moment of inertia of the station without people is 4.96 x 10" kg-m2. Suppose 142 people, with an average mass of 51.0 kg each, live on this station. As they move radially from the outer surface of the cylinder toward the axis, the angular speed...
A potter's wheel having a radius of 0.500 m and mass 45.0 kg is rotating freely at 50.0 rev/min in a clockwise direction. The potter can stop the wheel by pressing a wet rag against the outside rim of the wheel and exerting a radially inward force of 70.0 N. Since this force is in the radial direction, it alone cannot cause the wheel to slow its spinning. What can happen, however, is that a normal force can result from...
A space station is constructed in the shape of a hollow ring of mass 4.85 x 104 kg. Members of the crew walk on a deck formed by the inner surface of the outer cylindrical wall of the ring, with radius 140 m. At rest when constructed, the ring is set rotating about its axis so that the people inside experience an effective free-fall acceleration equal to g. (See figure below.) The rotation is achieved by firing two small rockets...
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