A cylindrical space station is designed to rotate such that the living quarters 2180 m from...

One problem for humans living in outer space is that they are apparently weightless. One way...

One problem for humans living in outer space is that they are apparently weightless. One way around this problem is to design a cylindrical space station that spins about an axis through its center at a constant rate. (See the figure below. (Figure 1)) This spin creates "artificial gravity" at the outside rim of the station.If the diameter of the space station is d = 660 m , how fast must the rim be moving in order for the "artificial...

1. Dynamics and artificial gravity. The space station has two thrusters pointed in opposite directions. They...

1. Dynamics and artificial gravity. The space station has two thrusters pointed in opposite directions. They operate by expelling propellant at high speed. The effect is that there is a force of magnitude F0 on the two ends of the space station in opposite directions, which causes the entire object to start rotating. The thrusters will stop firing when the artificial gravity created on the space station (described below) reaches the required value. Upward force, magnitude F0 Downward force, magnitude...

The International Space Station orbits the earth at an altitude of 400 km and circles the...

The International Space Station orbits the earth at an altitude of 400 km and circles the earth in 90 minutes. Assume the speed of the orbiting Space Station remains constant. a) What is the angular speed, in rad/s, and the linear speed, in km/h, of the Space Station while in orbit? b) What is the acceleration of the Space Station, in m/s2 , expressed in normal and tangential coordinates?

A space station is orbiting the Earth. It moves in a circular orbit with a radius...

A space station is orbiting the Earth. It moves in a circular orbit with a radius equal to twice the Earth's radius. A supply satellite is designed to travel to the station and dock smoothly when it arrives. If the supply satellite is fired as a simple projectile from the Earth's surface, what is the minimum initial speed required for it to reach the space station and have a speed equal to the station's speed when it arrives? Ignore both...

A cylindrical habitat in space was proposed by G. K. O'Neill in 1974. If the habitat...

A cylindrical habitat in space was proposed by G. K. O'Neill in 1974. If the habitat was 4 km in diameter and 28 km length would be able to have land, lakes, and multiple cities on the inside surface and clouds along its center. They would all be held in place by the rotation of the cylinder about its long axis. (a) How fast would the cylinder have to rotate (linear speed at the surface) to imitate the Earth's gravitational...

One problem for humans living in outer space is that they are apparently weightless. One way...

One problem for humans living in outer space is that they are apparently weightless. One way around this problem is to design a space station that spins about its center at a constant rate. This creates "artificial gravity" at the outside rim of the station. a. If the diameter of the space station is 740 m , how many revolutions per minute are needed for the "artificial gravity" acceleration to be 9.80m/s2? b. If the space station is a waiting...

It is proposed that future space stations create an artificial gravity by rotating. Suppose a space...

It is proposed that future space stations create an artificial gravity by rotating. Suppose a space station is constructed as a 1600-m-diameter cylinder that rotates about its axis. The inside surface is the deck of the space station. What rotation period will provide "normal" gravity? Express your answer with the appropriate units.

PART 1: You're out in space, on a rotating wheel-shaped space station of radius 688 m....

PART 1: You're out in space, on a rotating wheel-shaped space station of radius 688 m. You feel planted firmly on the floor, due to artificial gravity. The gravity you experience is Earth-normal, that is, g = 9.81 m/s^2. How fast is the space station rotating in order to produce this much artificial gravity? Express your answer in revolutions per minute (rpm). A) 1.140 rpm B) 0.119 rpm C) 82.2 rpm D) 0.684 rpm PART 2: This time, the space...

A space station has a large ring-like component that rotates to simulate gravity for the crew....

A space station has a large ring-like component that rotates to simulate gravity for the crew. this ring has a mass m= 2.1×10^5kg and a radius of r = 86.0 m and can be modeled as a thin hoop. before spinning up the ring section, crew members dave and frank dock their ships, each with mass m= 3.5×10^4 kg on two docking ports located on opposite sides of the center of the ring. the docking ports are located r= 31.0...

1- The International Space Station (m = 4.5 x 105 kg) orbits at an altitude of...

1- The International Space Station (m = 4.5 x 105 kg) orbits at an altitude of 415 km above the Earth’s surface. (a) Does the orbital speed of the station depend on its mass? Explain. (b) Find the speed of the station in its orbit (c) How much time does it take for the station to complete one orbit of the Earth?