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

Artificial gravity is a must for any space station if humans are to live there for...

Artificial gravity is a must for any space station if humans are to live there for any extended length of time. Without artificial gravity, human growth is stunted and biological functions break down. An effective way to create artificial gravity is through the use of a rotating enclosed cylinder, as shown in the figure. Humans walk on the inside of the outer edge of the cylinder, which has a diameter of ?=3535 m that is large enough such that its...

To create artificial gravity, the space station shown in the drawing is rotating at a rate...

To create artificial gravity, the space station shown in the drawing is rotating at a rate of 0.540 rpm. The radii of the cylindrically shaped chambers have the ratio rA/rB = 2.00. Each chamber A simulates an acceleration due to gravity of 7.40 m/s2. Find values for (a) rA, (b) rB, and (c) the acceleration due to gravity that is simulated in chamber B.

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...

Chapter 05, Problem 40 To create artificial gravity, the space station shown in the drawing is...

Chapter 05, Problem 40 To create artificial gravity, the space station shown in the drawing is rotating at a rate of 0.730 rpm. The radii of the cylindrically shaped chambers have the ratio rA/rB = 5.00. Each chamber A simulates an acceleration due to gravity of 6.70 m/s2. Find values for (a) rA, (b) rB, and (c) the acceleration due to gravity that is simulated in chamber B.

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 way to provide artificial gravity (i.e., a feeling of weight) on long space voyages is...

One way to provide artificial gravity (i.e., a feeling of weight) on long space voyages is to separate a spacecraft into two parts at the ends of a long cable, and set them rotating about their center of mass. A craft has been separated into two parts with a mass of 66900 kg each, at the ends of a cable with their centers of mass 139 m apart, rotating around the center point of the cable with a period of...