Gravity chamber that rotates on support bearings mounted on an outer surface of a hull of a habitation module

The invention claimed is: 1. A habitation module comprising: a hull that defines an outer diameter of the habitation module; a gravity chamber that is annular and includes: an inner cylindrical structure that encircles the hull of the habitation module; an outer cylindrical wall; and opposing side walls that connect the outer cylindrical wall and the inner cylindrical structure; first support bearings for attaching the gravity chamber to the hull, wherein each of the first support bearings includes an inner race attached to an outer surface of the hull, and an outer race attached to the gravity chamber; a first drive mechanism that drives the outer race of at least one of the first support bearings to rotate the gravity chamber in a first direction about an axis to simulate a gravitational force within the gravity chamber; and a shell that encompasses the gravity chamber. 2. The habitation module of claim 1 wherein the first support bearings comprise: a pair of support bearings spaced axially along the outer surface of the hull, and attached to opposing sides of the gravity chamber. 3. The habitation module of claim 1 further comprising: a cylindrical counter-weight member that rotates about the axis in an opposite direction than the gravity chamber. 4. The habitation module of claim 3 wherein the cylindrical counter-weight member comprises: a counter-weight; and second support bearings for attaching the counter-weight to the hull, wherein each of the second support bearings includes an inner race attached to the outer surface of the hull, and an outer race attached to the counter-weight. 5. The habitation module of claim 4 further comprising: a second drive mechanism that drives the outer race of at least one of the second support bearings to rotate the counter-weight in a second direction about the axis that is opposite than the first direction. 6. The habitation module of claim 1 wherein: a first one of the first support bearings includes teeth on the outer race; the first drive mechanism includes a drive gear having teeth that mesh with the teeth on the outer race of the first one of the first support bearings; and the first drive mechanism is configured to spin the drive gear to impart rotational movement to the outer race of the first one of the first support bearings. 7. The habitation module of claim 1 wherein: the gravity chamber is hollow between the inner cylindrical structure, the outer cylindrical wall, and the side walls; and an inner surface of the outer cylindrical wall is lined with a material for an exercise track. 8. The habitation module of claim 1 wherein: the gravity chamber includes a plurality of partitions that extend radially from the inner cylindrical structure to the outer cylindrical wall to define compartments within the gravity chamber. 9. The habitation module of claim 8 wherein: at least one of the compartments is for a restroom facility. 10. The habitation module of claim 8 wherein: at least one of the compartments is for a sleeping facility. 11. The habitation module of claim 1 wherein: the side walls include support members that extend from the inner cylindrical structure to the outer cylindrical wall; and the support members include spring dampeners. 12. The habitation module of claim 1 wherein: the gravity chamber includes a divider orthogonal to the axis that divides the gravity chamber into a first annular sub-chamber and a second annular sub-chamber; the first annular sub-chamber is hollow between the inner cylindrical structure and the outer cylindrical wall for an exercise track; and the second annular sub-chamber includes a plurality of partitions that extend radially from the inner cylindrical structure to the outer cylindrical wall to define compartments within the second annular sub-chamber. 13. The habitation module of claim 1 wherein: the shell is sealed around a circumference of the hull on opposing sides of the gravity chamber to encompass the gravity chamber in an airtight cavity. 14. A habitation module comprising: a hull that defines an outer diameter of the habitation module; a first gravity chamber that is annular, wherein the hull passes through a first axial hole of the first gravity chamber; a second gravity chamber that is annular, wherein the hull passes through a second axial hole of the second gravity chamber; first support bearings for attaching the first gravity chamber to the hull, wherein each of the first support bearings includes a first inner race attached to an outer surface of the hull, and a first outer race attached to the first gravity chamber; second support bearings for attaching the second gravity chamber to the hull, wherein each of the second support bearings includes a second inner race attached to the outer surface of the hull, and a second outer race attached to the second gravity chamber; and at least one drive mechanism that rotates the first gravity chamber on the first support bearings in a first direction about an axis, and rotates the second gravity chamber on the second support bearings in a second direction about the axis that is opposite the first direction. 15. The habitation module of claim 14 further comprising: a shell that encompasses the first gravity chamber and the second gravity chamber; wherein the shell is sealed around a circumference of the hull on opposing sides of the first and second gravity chambers to encompass the first and second gravity chambers in an airtight cavity. 16. An apparatus comprising: a habitation module having a hull that defines an outer diameter of the habitation module; an annular gravity chamber that includes an outer cylindrical wall, an inner cylindrical structure, and opposing side walls that connect the outer cylindrical wall and the inner cylindrical structure, wherein the inner cylindrical structure encircles the hull of the habitation module; first support bearings for attaching the gravity chamber to the hull, wherein each of the first support bearings includes a first inner race attached to an outer surface of the hull, and a first outer race attached to the gravity chamber; a first drive mechanism that drives the first outer race of at least one of the first support bearings to rotate the gravity chamber in a first direction about an axis to simulate a gravitational force within the gravity chamber; a counter-weight; second support bearings for attaching the counter-weight to the hull, wherein each of the second support bearings includes a second inner race attached to the outer surface of the hull, and a second outer race attached to the counter-weight; and a second drive mechanism that drives the second outer race of at least one of the second support bearings to rotate the counter-weight in a second direction about the axis that is opposite than the first direction. 17. The apparatus of claim 16 wherein: a first one of the first support bearings includes teeth on the first outer race; the first drive mechanism includes a drive gear having teeth that mesh with the teeth on the first outer race of the first one of the first support bearings; and the first drive mechanism is configured to spin the drive gear to impart rotational movement to the first outer race of the first one of the first support bearings. 18. The apparatus of claim 16 wherein: the gravity chamber is hollow between the inner cylindrical structure, the outer cylindrical wall, and the side walls; and an inner surface of the outer cylindrical wall is lined wit