Artificial gravity system with a rotating structure that rotates about a stationary structure

The invention claimed is: 1. A habitation module comprising: a stationary structure that includes: a first circular side wall; a second circular side wall spaced apart from the first circular side wall and aligned axially; and at least one support beam that attaches the first circular side wall and the second circular side wall; and a rotating structure that rotates about an axis in relation to the stationary structure, wherein the rotating structure includes: a cylindrical hub comprising a hollow cylinder that slides onto the stationary structure, and connects to the first circular side wall and the second circular side wall through rotatable attachment members, wherein the cylindrical hub includes a plurality of portals spaced radially around a circumference of the cylindrical hub; a plurality of gravity chambers that are permanently affixed to the cylindrical hub about the portals, and project radially from the axis; a first radial seal that spans a first gap between the cylindrical hub and the first circular side wall to form an air-tight seal around a circumference of the first circular side wall; and a second radial seal that spans a second gap between the cylindrical hub and the second circular side wall to form an air-tight seal around a circumference of the second circular side wall. 2. The habitation module of claim 1 further comprising: a drive mechanism configured to rotate the rotating structure about the axis in relation to the stationary structure to simulate a gravitational force within the gravity chambers; and a ring gear affixed to the cylindrical hub and having teeth that mesh with teeth on the drive mechanism. 3. The habitation module of claim 1 wherein: the rotatable attachment members comprise a pair of support bearings; a first one of the support bearings connects the cylindrical hub to the first circular side wall; and a second one of the support bearings connects the cylindrical hub to the second circular side wall. 4. The habitation module of claim 1 wherein: at least one of the gravity chambers comprises: a hollow cylindrical enclosure that includes an outer wall, an inner wall, and a cylindrical side wall that connects the outer wall and the inner wall; and a passage tube that projects from the inner wall of the hollow cylindrical enclosure; wherein the passage tube is permanently affixed around one of the portals of the cylindrical hub. 5. The habitation module of claim 4 wherein: an end of the passage tube is welded around one of the portals of the cylindrical hub. 6. The habitation module of claim 4 wherein the rotating structure further includes: at least one support member having a first end affixed to the cylindrical hub, and a second end affixed to the cylindrical side wall of the at least one gravity chamber. 7. The habitation module of claim 1 wherein: at least one of the gravity chambers is an extendable gravity chamber comprising: a hollow cylindrical enclosure that includes an outer wall and an inner wall, and includes a cylindrical side wall and an expandable side wall that connect the outer wall and the inner wall; and a passage tube that projects from the inner wall of the hollow cylindrical enclosure; wherein the passage tube is permanently affixed around one of the portals of the cylindrical hub; wherein the expandable side wall is sealed around a circumference of the cylindrical side wall and a circumference of the inner wall to form an airtight cavity within the extendable gravity chamber. 8. The habitation module of claim 7 wherein: an end of the passage tube is welded around one of the portals of the cylindrical hub. 9. The habitation module of claim 7 wherein: the rotating structure further includes guide members, wherein one end of each of the guide members is affixed to the cylindrical hub; the extendable gravity chamber includes guide connectors attached to the cylindrical side wall that are slidably connected to the guide members; and the guide connectors slide along the guide members when the extendable gravity chamber is extended. 10. The habitation module of claim 9 wherein: the rotating structure further includes locking collars that are affixed to the guide members proximate to the one end of the guide members that is affixed to the cylindrical hub; and the guide connectors attach to the locking collars to secure the extendable gravity chamber in a contracted position. 11. The habitation module of claim 9 wherein: the rotating structure further includes end collars that are affixed to the guide members proximate to a distal end of the guide members; and the guide connectors attach to the end collars to secure the extendable gravity chamber in an extended position. 12. The habitation module of claim 1 wherein: the first circular side wall of the stationary structure includes a hatch; and the stationary structure further includes a docking mechanism that encircles the hatch for attaching the stationary structure to a module of a space station. 13. The habitation module of claim 1 further comprising: a counter-rotating member that rotates about the axis in an opposite direction than the rotating structure. 14. The habitation module of claim 13 wherein: the first circular side wall of the stationary structure includes a hatch; and the counter-rotating member includes: a cylindrical counter-weight that encircles the hatch; and a drive mechanism that rotates the cylindrical counter-weight about the axis in the opposite direction than the rotating structure. 15. The habitation module of claim 14 wherein: the drive mechanism adjusts a rotational speed of the cylindrical counter-weight to compensate for a change in mass within the gravity chambers. 16. An apparatus comprising: a habitation module for providing an artificial gravity environment in space, the habitation module comprising: a stationary structure; a rotating structure that slides over the stationary structure and attaches to the stationary structure using annular support bearings to rotate about an axis, wherein the rotating structure is a unitary body comprising: a cylindrical hub that comprises a hollow cylinder having a plurality of portals spaced radially around a circumference of the hub; and an opposing pair of gravity chambers that are permanently affixed about the portals of the hub, and project radially from the axis in opposite directions; a pair of radial seals that form an air-tight seal between the rotating structure and the stationary structure; and a drive mechanism that rotates the rotating structure about the axis in relation to the stationary structure to simulate a gravitational force within the gravity chambers. 17. The apparatus of claim 16 wherein: the gravity chambers each comprise: a hollow cylindrical enclosure that includes an outer wall, an inner wall, and a cylindrical side wall that connects the outer wall and the inner wall; and a passage tube that projects from the inner wall of the hollow cylindrical enclosure; wherein an end of the passage tube is permanently affixed around one of the portals of the cylindrical hub. 18. The apparatus of claim 17 wherein: the end of the passage tube is welded around one of the portals of the cylindrical hub. 19. The apparatus of claim 17 wherein: the rotating structure further includes: support members that extend between the cylindrical hub and one of the gravity chambers; the support members each having a first end affixed to the cylin