Print drums rotatable at different angular velocities

What is claimed is: 1. A printing device comprising: a first print drum comprising a first ring gear defined on a surface of the first print drum; a second print drum coaxial to the first print drum comprising a second ring gear defined on a surface of the second print drum; a rotatable drive shaft; and pinion gears to engage the first ring, gear and the second ring gear, wherein rotation of the drive shaft causes the pinion gears to interact with the first and second ring gears to rotate the first print drum and the second print drum at different angular velocities. 2. The printing device of claim 1 , wherein the different angular velocities are different non-zero angular velocities. 3. The printing device of claim 1 , wherein the rotation of the drive shaft causes corresponding rotation of the pinion gears, the pinion gears being engaged with the first and second ring gears. 4. The printing device of claim 1 , wherein the pinion include teeth to mesh with teeth of the first ring gear and the second ring gear. 5. The printing device of claim 1 , further comprising: a first speedometer to measure the angular velocity of the first print drum; and a second speedometer to measure the angular velocity of the second print drum. 6. The printing device of claim 1 , wherein the drive shaft upon rotation supplies a single input torque to the first print drum and the second print drum. 7. The printing device of claim 1 , further comprising a relative velocity detector to detect the angular velocities of the first print drum and the second print drum relative to one another. 8. The printing device of claim 1 , further comprising a carrier connected to the drive shaft, the carrier supporting the pinion gears. 9. The printing device of claim 8 , wherein the carrier is to rotate with the rotation of the drive shaft, and the pinion gears are to rotate with the rotation of the carrier. 10. The printing device of claim 1 , wherein a difference in angular velocities of the first and second ring gears causes rotation of the pinion gears about an axis that is different from an axis of rotation of the drive shaft. 11. The printing device of claim 1 , in which the first print drum and the second print drum rotate independently of one another. 12. The printing device of claim 1 , wherein the first print drum is to receive a print medium in a first orientation, and the second print drum is to receive the print medium in a second orientation different from the first orientation. 13. An apparatus comprising: a first ring gear for a first print drum of a printing device; a second ring gear for a second print drum of the printing device; a rotatable drive shaft; and pinion gears to engage the first ring gear and the second ring gear, wherein rotation of the drive shaft causes the pinion gears to interact with the first and second ring gears to rotate the first and second ring gears at different angular velocities, where the first print drum is coaxial to the second print drum. 14. The apparatus of claim 1 wherein the different angular velocities are different non-zero angular velocities. 15. The apparatus of claim 13 , wherein the rotation of the drive shaft causes corresponding rotation of the pinion gears, the pinion gears being engaged with the first and second ring gears. 16. The apparatus of claim 13 , wherein a difference in angular velocities of the first and second ring gears cause rotation of the pinion gears about an axis that is different from an axis of rotation of the drive shaft. 17. A printing system comprising: a split print drum comprising a plurality of print drums; a differential drive assembly to rotate a number of the plurality of print drums, the differential drive assembly comprising: a rotatable drive shaft; and pinion gears to engage gears of the plurality of print drums, wherein rotation of the drive shaft causes the pinion gears to interact with the gears of the plurality of print drums to rotate at different angular velocities, a first print drum and a second print drum that is coaxial to the first print drum; and a power source to supply an input torque to the drive shaft. 18. The printing system of claim 17 , wherein the drive shaft passes longitudinally through a center of the plurality of print drums. 19. The printing system of claim 17 , wherein the plurality of print drums are to receive a plurality of passes of a print medium. 20. The printing system of claim 17 , further comprising tension mechanism to control a tension of a print medium in the printing system.